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Andhra Pradesh	Agriculture	Agriculture thumb\|alt=\|Lush green farms in Konaseema The agricultural economy comprises agriculture, livestock, poultry farming, and fisheries. Four important rivers in India, the Godavari, Krishna, Penna, and Tungabhadra, flow through the state and provide irrigation. The population engaged in agriculture and related activities as per 2020–21 fiscal data is 62.17%. Rice is the state's major food crop and staple food. Besides rice, farmers grow jowar, bajra, maize, many varieties of pulses, sugarcane, cotton, tobacco, fruits, and vegetables. The state contributed to 30% of fish production of India and it had a share of 35% in total sea food exports of India in 2022–23. The state has three agricultural export zones: the undivided Chittoor district for mango pulp and vegetables, the undivided Krishna district for mangoes, and the undivided Guntur district for chillies. Banaganapalle mangoes produced in the state were accorded GI status in 2017. Rythu Seva Kendras (RSK) or farmer facilitation centres are initiated by the government in 2020 to serve as a hassle-free, one-stop solution for the requirements of farmers from seed-to-sale. Banking services through banking correspondent are also integrated. 10,778 RSKs are functioning. AP land titling act 2023 was brought in to change from presumptive land ownership system based on possession, registration or inheritance documents to conclusive land ownership system, with government standing as surety for the ownership. Lands in 6000 villages were surveyed with drones and land title certificates were issued to owners, with georeferencing of their land parcels. The benefits of the act include a reduction in land disputes and easier acquisition of lands for public requirements. The newly formed TDP led NDA alliance government decided to repeal the act citing the scope for misuse of authority and deviation from the centre's draft bill. The Commission on Inclusive and Sustainable Agricultural Development of Andhra Pradesh, chaired by Prof. R. Radhakrishna, estimated the number of tenant farmers at 24.25 lakh in 2014. This consists of 6.29 lakh landless tenants and the rest owning some land. Out of 60.73 lakh hectares under cultivation, 27.15 lakh hectares or 44% was cultivated by tenants. Departmental estimates for 2021 put the number of tenant farmers at about 16 lakh. To identify and serve the needs of tenants, the Crop Cultivator Rights Act (CCRA) of 2019 was brought out. Only 26% of tenants obtained the CCRA or loan eligibility cards as per 2022 data.
Andhra Pradesh	Industries	Industries thumb\|Isuzu Motors India manufacturing plant aerial view, Sri City thumb\|upright\| Chandrayaan-3 – Launch vehicle lifting off from the second launch pad of SDSC-SHAR, Sriharikota As per the annual survey of industries 2019–20, the number of factories was 12,582 with 681,224 employees. The top four employment providers are food products (25.48%), non-metallic minerals (11.26%), textiles (9.35%), and pharmaceuticals (8.68%). Gross value added (GVA) contributed by the industrial sector is , of which food products (18.95%), pharmaceuticals (17.01%), and non-metallic minerals (16.25%) are the top three contributors. From a district perspective, the top three districts were undivided Visakhapatnam, Chittoor, and Krishna. The defence administered Hindustan Shipyard Limitedwerecondensate built the first ship in India in 1948. The state has 36 big auto players, such as Ashok Leyland, Hero Motors, Isuzu Motors India, and Kia Motors, The mining sector contributed in revenue to the state during 2021–22. Nearly 225 million barrels of crude oil was produced from Ravva block, in the shallow offshore area of the Krishna Godavari basin during 1994–2011. The state accounted for 0.6% of had and codensate production, and 2.9% of natural gas production of India in 2020–21. there are 190 science and technology organisations in Andhra Pradesh, including 12 central labs and research institutions. Satish Dhawan Space Centre (SDSC), known as Sriharikota range (SHAR), on the barrier island of Sriharikota in Tirupati district, is the primary satellite launching station operated by the Indian Space Research Organisation.
Andhra Pradesh	Services	Services Trade, hotels & restaurants registered the highest growth rate of 16.64%, while public administration, the lowest growth rate of 4.24% for the year 2022–23 at constant 2011–12 prices among the services category. The state is ranked third in domestic tourist footfalls for the year 2021, with 93.2 million domestic tourists, which amounts to 13.8% of all domestic tourists in India. A major share of the tourists visit temples in Tirupati, Vijayawada, and Srisailam. The value of information technology exports from the state in 2021–22 was , which is 0.14% of the IT exports from India. Exports have remained below 0.2% in the past five years.
Andhra Pradesh	Infrastructure	Infrastructure
Andhra Pradesh	Transport	Transport
Andhra Pradesh	Roads	Roads thumb\|Passengers at Pandit Nehru Bus Station, Vijayawada the state has a total major road network of . This comprises of national highways, of state highways, and of major district roads. In the category of national highways, NH 16, with a highway network of around in the state, is a part of the Golden Quadrilateral project. Vehicles on the register consist of 1.828 million transport vehicles and 13.7 million non-transport vehicles. In the transport category, goods carriages constitute 53.61%, auto rickshaws 36.21%, and stage carriages 1.14% constitute the top 3 categories. In the non-transport category, motorcycles constitute 89.5%, four-wheelers 7.29%, and cabs 5.96% occupy the top 3 ranks. The state government-owned Andhra Pradesh state road transport organisation is the public bus transport provider. It is split into 129 depots across four zones. It has a fleet strength of 11,098 buses and a staff count of 49,544. It operates 1.11 billion kilometres and serves 3.68 million passengers daily as per the socio-economic survey of 2023.
Andhra Pradesh	Railways	Railways Renigunta was the first among major stations to appear on the railway map of Andhra Pradesh when Madras railway connected it to Madras in 1862. Rajahmundry-Vijag and Viajayawad-Kovvur sections were opened in 1893. Vijayawada-Madras section was started in 1899. It was extended to Howrah in 1900. The state has a total broad-gauge railway route of with rail density at 24.36 km per 1000 square kilometres. The railway network in Andhra Pradesh is under the South Central railway, East Coast railway, and South Western railway zones. During 2014–2022, 350 km of new lines were constructed at a rate of 44 km per year in Andhra Pradesh under the South Central railway division. The rate of construction was only 2 km per year in the preceding five years. The Nadikudi–Srikalahasti line of 308.70 km sanctioned at a budget of in 2011–12 as a joint project of the centre and state is progressing slowly, with only phase one of 46 km between New Piduguralla station and Savalyapuram completed in 2021–22. There are three A1 and 23 A-category railway stations in the state, as per the assessment in 2017. was declared the cleanest railway station in the country, as per the assessment in 2018. The railway station in Shimiliguda is the second broad gauge railway station at high altitude in the country next to Qazigund in Jammu and Kashmir. A new railway zone South Coast railway (SCoR), with headquarters in Visakhapatnam, was announced in 2019, but is yet to be implemented.
Andhra Pradesh	Airports	Airports Tirupati Airport was established in 1976. Visakhapatnam became a part of civil aviation in 1981. Daily flights to Vijayawada were started in 2003. Apart from these three which are international airports, the state has three domestic airports, namely Rajahmundry, Kadapa, and Kurnool. A privately owned airport for emergency flights and chartered flights is at Puttaparthi. Bhogapuram international airport is being constructed with a budget of ₹4,750 crore on an area of 2,300 acres near Visakhapatnam. It is expected to be completed by 2025. Andhra Pradesh saw a 60% increase in domestic air passenger traffic, with 24.74 lakh visitors at its five airports during the 2021–22 fiscal year (up to January 2022), compared to 15.48 lakh in the same period the previous fiscal year.
Andhra Pradesh	Sea ports	Sea ports thumb\|Vizag seaport The state has one major port at Visakhapatnam under the administrative control of the central government and 15 notified ports, including three captive ports, under the control of the state government. Visakhapatnam port was the earliest port to be commissioned in 1933. Gangavaram port is a deep seaport that can accommodate ocean liners up to 200,000–250,000 DWT. Cargo of 189.21 million tonnes was handled by Gangavaram, Kakinada deepwater, Krishnapatnam, Ravva, Kakinada anchorage, and Visakhapatnam during 2023–34, with a growth of 7.9% over the previous year. New sea ports are under construction at Ramayapatnam, Machilipatnam, Mulapeta, and Kakinada.
Andhra Pradesh	Communication	Communication As per socio-economic survey released in January 2023, Andhra Pradesh has post offices. Bharat sanchar nigam limited (BSNL) operates telephone exchanges with 20.6 million landline connections and also has 5.4 million wireless subscribers. Airtel, Jio, Vodaphone Idea, and BSNL provide mobile services in the state. the number of mobile phone users reached 82 million, while the number of internet subscribers reached 67.1 million in Andhra Pradesh. Mobile network services are available in 15,322 out of 17,328 villages. 5G network connectivity is provided by 16,714 base transfer stations. Several providers including state government owned Andhra Pradesh state fibre net limited operate wireline services supporting internet connectivity, telephony, and Internet Protocol television. The AP statewide area network connects 2,164 offices of state administration at 668 locations down to the level of mandal headquarters. The network supports both data and video communications. BSNL and the National Knowledge Network multi-purposeCricket link district headquarters with state headquarters with a bandwidth of 34 Mbit/s. Mandal headquarters are connected with a bandwidth of 8 Mbit/s.
Andhra Pradesh	Water	Water The state has 40 major and medium rivers and 40,000 minor irrigation sources. Godavari, Krishna, and Penna are major rivers. The total cultivable area is 19.904 million acres. Major, medium, and minor irrigation projects irrigate 10.172 million acres or 51.1% . Several water projects in the state are facing issues. The Polavaram Project is a multi purpose terminal reservoir project located 42 km upstream of Davaleswaram barrage. It is a national project as per the AP Reorganisation Act of 2014. It has a reservoir capacity of 194.6 TMC and is expected to utilise 322.73 TMC of water in a year. The under-construction project suffered setbacks with damage to its diaphragm wall during the 2022 floods. The Veligonda Project, taken up to serve needs of Prakasam, Nellore, and Madala districts is progressing slowly. The Annamayya project, washed away in the 2021 floods, is set to be redesigned for 787 crores. Following the bifurcation, disputes with Telangana regarding the allocation of Krishna and Godavari waters continue to dog the state.
Andhra Pradesh	Power	Power thumb\|right\|Rayalaseema Thermal Power Station Thermal, hydel and renewable power plants supply power to the state. The installed capacity share of the state in the public sector generating stations was 7,245 MW. The private sector installed capacity was 9,370 MW, which includes an independent power producer capacity of 1,961 MW. The total installed capacity was 16,615 MW. Peak power demand for the state in 2021–22 was 12,032 MW and per capita consumption was 1,285 kilowatt hours. The energy consumed was 68,972 million units. Energy consumption increased from 54,555 MU in 2018–19 to 69,113 MU in 2023–24, at a growth rate of 4.8% which is among the lowest in the country. The per capita electricity consumption of AP. Increased by only 123 kWh in the same period when there was an increase of 146 kWh at the national level. The reasons were because of steep tariff increases and re-imposing power cuts as there was a delay in commissioning of the Polavaram hydro-electric power project (960 MW), Sri Damodaram Sanjeevaiah thermal power station (Krishnapatnam) stage-II unit-3 (800 MW) and Dr. Narla Tata Rao thermal power station stage-V unit-8 (800 MW) stations.
Andhra Pradesh	Healthcare	Healthcare The health infrastructure consists of 13 district hospitals, 28 sub-district hospitals, and urban and rural health centres as of 2019–20. Doorstep healthcare support services are provided through Accredited social health activist(ASHA) workers as of July 2019. The 108 service provides fast emergency management services by shifting patients to a nearby healthcare facility. The 104 service provides health care services at the doorstep of villages through mobile medical units that visit at least once a month. All the poor families are covered by the free state health insurance scheme up to a limit of . The scheme serves 42.5 million people. The services are provided in government and private hospitals under the network. During 2014–2018, though the nominal mean claim amount of beneficiaries went up significantly, it decreased after accounting for inflation. Mortality rates have significantly decreased, which indicates better outcomes are being achieved at a lower cost. Out of 2,700 private hospitals registered under the state health insurance scheme, 540 (20%) are speciality hospitals. The number of patients treated under the state health insurance scheme increased from 1.2 million in 2022–23 to 1.39 million in 2023–24. whereas the budget remained constant at ₹3,350 crore. The National family health survey-5 conducted in 2019–21 data provided an insight into the economic and health status of households. Housing, electricity, clean fuel, access to toilets, mobile phone usage, and bank account access were available for more than 85% of households. Piped water facilities were available for only 22% of households. The state health insurance scheme, the employee health scheme, the Rashtriya swasthya bima yojana, the Employees' state insurance scheme, and the Central government health scheme covered 70% of households with at least one member covered.
Andhra Pradesh	Banking	Banking there are 33 private sector banks, 12 public sector banks, three rural banks, three small finance banks, three payment banks, one cooperative bank, and one state financial corporation operating in the state. The total number of branches is 7,881. Banks have deposits amounting to and extended credit amounting to , with credit deposit ratio of 144% against Reserve Bank of India norm of 60%. Primary sector advances amounted to 60.13% of total bank credit. Till March 2011, the microfinance industry flourished in united Andhra Pradesh with a share of 65% of pan India gross loans. Due to state regulation enacted in 2010, the loan portfolio shrank to 0.8% in Andhra Pradesh as of 31 March 2023. With the court deciding against state regulation, the industry is likely to pick up again.
Andhra Pradesh	Education	Education thumb\|Andhra University, Visakhapatnam Primary and secondary school education is imparted by government and private schools, regulated by the school education department of the state. The government decided to stop financial aid to aided schools with history dating to 1870s, forcing them to handover the schools with the aided staff to government or become private in 2021. As per Unified district information system for education plus (UDISE+) report of 2021–22, there were a total of students enrolled in schools. Performance of rural students on reading, arithmetic skills in grades 1–8 declined during 2018–2022 partly attributed to Covid outbreak. As an example, for the reading assessment in Class VIII students, it nosedived 67% in 2022 from over 78% in 2018. However, the student enrolment at government schools improved from 63.2% to 71%. In the March 2024 secondary school certificate (SSC) exam students appeared in the regular stream. Parvathipuram-Manyam district achieved the highest pass percentage of 96.37 among districts. The overall pass percentage was 86.69%, an increase of 14.43% over the previous year, with 100% in 2,803 schools. In intermediate (higher secondary) examinations held in March 2024, 393,757 students appeared. The pass percentage was 78%, which is an increase of 7% over the previous year. The state initiated education reforms in 2020 by creating six types of schools: satellite foundation schools (pre-primary), foundational schools (pre-primary – class II), foundational school plus (pre-primary – class V), pre-high school (class III – class VII/VIII), high school (class III – class X), and high school plus (class III – class XII). The transition to English-medium education in all government schools was started in the academic year 2020–2021. It is expected to reach completion by 2024–25. Affiliation of 1,000 government schools to the Central Board of Secondary Education in 2022–23 was done as an initial step. The state government went ahead with the English medium based on the parents survey despite protests and court cases. The state initiative is being funded in part by a loan from the World Bank to the tune of $250 million over 2021–2026 through the "Supporting Andhra's learning transformation" project to improve the learning outcomes of children up to class II level. there are 169 government-aided degree colleges and 55 private-aided degree colleges in the state. National assessment and accreditation council grades were awarded to 66 government colleges and 48 private-aided colleges. There are 85 government-aided and 175 private polytechnic colleges with a sanctioned strength of 75,906 students. In the category of technical education, there are 685 institutions offering diploma, undergraduate, and postgraduate Visakhapatnamthe courses, with an intake of 299,608. The AP state council of higher education organises various entrance tests for different streams and conducts counselling for admissions. The AP state skill development corporation is set up to support skill development and placement for the educated. there are a total of 36 universities: three central universities, 23 state public universities, six state private universities, and four deemed universities. Andhra University is the oldest of the universities in the state, established in 1926. The government established Rajiv Gandhi university of knowledge technologies in 2008 to cater to the education needs of the rural youth of the state. NTR University of health sciences oversees medical education in 348 affiliated colleges spanning the entire range from traditional medicine to modern medicine. The public universities, including the legacy universities such as Andhra, Sri Venkateswara, and Nagarjuna, are suffering from a severe fund crunch and staff shortage, managing with only 20% of sanctioned full-time staff. Koneru Lakshmaiah education foundation university bagged the 50th rank, while Andhra university bagged the 76th rank in the overall category of India rankings for 2023 as per the national institute ranking framework of the union ministry of education in which 2,478 institutions, including 242 institutions from the state, participated. The gross enrolment ratio (GER) in higher education for the age group 18–23 for the state was at 35.2% for the year 2019–20, which comparing favourably with the GER for all of India at 27.1%. With a female GER of 35.3 and a male GER of 38.2, the Gender Parity Index was 0.84. The corresponding ratio for India was 1.01. There were 510 industrial training institutes (ITI) in 2020–21 in Andhra Pradesh, with 82 under government management and 417 under private management. The total available seats in 2021 were 93,280, out of which 48.90% were filled. In 2020, 10,053 students completed ITI. The state has 2,510 public libraries, including four regional libraries and 13 district central libraries under government management. Saraswata Niketanam at Vetapalem in Bapatla district, one of the oldest libraries established under private management in 1918, is losing its attraction as the Internet spreads. The government is planning to develop digital libraries at the village panchayat level.
Andhra Pradesh	Media	Media The total number of registered newspapers and periodicals in the state for the years 2020–21 was 5,798. There were 1,645 dailies, 817 weeklies, 2,431 monthlies, and 623 fortnightlies. Telugu dailies number 787 with a circulation of 9,911,005, while English dailies account for 103 with a circulation of 1,646,453. Eenadu, Sakshi, and Andhra Jyothi are the top three Telugu daily newspapers in terms of circulation in India and are also the top three Telugu news sites. BBC Telugu news was launched on 2 October 2017. Several privately owned news media outlets are considered biased towards specific political parties in the state. There were 23 news channels, 10 general entertainment channels, two health channels, six religious channels, two other channels, and two cable distribution channels, for a total of 45 channels empanelled by the Andhra Pradesh information and public relations department. Akashvani previously known as All India Radio, operates 3 MW, 17 FM transmitters from 14 locations in the state. It reaches 99% of the area and 99.5% of the population. Akashvani's FM coverage alone reaches 36% of the area and 45% of the population. Five private operators run 13 FM stations, with Red FM operating from five locations.
Andhra Pradesh	Sports	Sports thumb\|ACA–VDCA Cricket Stadium in Visakhapatnam Traditional games played during childhood include Dagudu Mootalu (Hide and seek), Tokkudu Billa, Yedu Penkulata, Vamanaguntalu, Chadarangam (Chess), Puli Joodam, Ashta Chamma, Vaikuntapali (Snakes and ladders), Nalugu Stambalata, and Nalugu ralla aata. Karrasamu (stick fight) is a traditional martial art form of the state. It is a form of self-defence to prevent thefts and robbery in villages. It is a discipline in the national sports, though it is not recognised for the sports quota category of reservations in Andhra Pradesh. Sports Authority of Andhra Pradesh is the governing body that looks after the infrastructure development, coaching, and administration of sports promotion schemes. Sports authority of India (SAI) operates three SAI Training centres in Andhra Pradesh . Dr. YSR Sports School, Putlampalli, Kadapa district was selected for upgradation as Khelo India centre of excellence in 2021. Andhra Cricket Visakhapatnam District Association cricket Association (ACA-VDCA) stadium in Visakhapatnam is known for hosting international cricket matches. Pullela Gopichand is a former Indian badminton player. He won the All England Open Badminton Championships in 2001, becoming the second Indian to win after Prakash Padukone. P. V. Sindhu is one of India's most successful athletes, having won medals in major tournaments like the Olympics and the BWF circuit, including a gold at the 2019 World Championships. She is the first Indian to become a badminton world champion and only the second to win two consecutive Olympic medals. Karnam Malleswari is the first female Indian to win an Olympic medal. She won bronze medal in 69 kg weightlifting event at 2000 Olympics games. Srikanth Kidambi, a badminton player, is the first Indian to reach the world championships final in 2021 in the men's singles and win a silver medal. The state secured 16 medals at the 36th national games held in 2022. It was ranked 21st in the competition. The state sportpersons won 11 medals in Tennis, Archery, Badminton, Athletics, Chess and Cricket disciplines in the 19th Asian games held in China in 2022. The state was ranked at 13th spot in the sixth edition of Khelo India youth games-2023, by winning 27 medals.
Andhra Pradesh	See also	See also Outline of Andhra Pradesh Disputes between Andhra Pradesh and Telangana
Andhra Pradesh	Notes	Notes
Andhra Pradesh	References	References
Andhra Pradesh	Bibliography	Bibliography
Andhra Pradesh	External links	External links
Andhra Pradesh	Government	Government
Andhra Pradesh	General information	General information Category:South India Category:States and union territories of India Category:States and territories established in 1956 Category:1956 establishments in India
Andhra Pradesh	Table of Content	Short description, Etymology, History, Pre-history, Early and medieval history, Modern history, Geography, Flora and fauna, Mineral resources, Climate, Demographics, Religion, Sub categorisaton, Culture, Clothing, Cuisine, Literature, Architecture, Arts, Festivals, Government and administration, Administrative divisions, Local government, Cities and towns, Government revenue and expenditure, Economy, Agriculture, Industries, Services, Infrastructure, Transport, Roads, Railways, Airports, Sea ports, Communication, Water, Power, Healthcare, Banking, Education, Media, Sports, See also, Notes, References, Bibliography, External links, Government, General information
Asymmetrical relationship	#	redirect Binary relation
Asymmetrical relationship	Table of Content	#
Accelerated Graphics Port	Short description	Accelerated Graphics Port (AGP) is a parallel expansion card standard, designed for attaching a video card to a computer system to assist in the acceleration of 3D computer graphics. It was originally designed as a successor to PCI-type connections for video cards. Since 2004, AGP was progressively phased out in favor of PCI Express (PCIe), which is serial, as opposed to parallel; by mid-2008, PCI Express cards dominated the market and only a few AGP models were available, with GPU manufacturers and add-in board partners eventually dropping support for the interface in favor of PCI Express.
Accelerated Graphics Port	{{Anchor	Advantages over PCI AGP is a superset of the PCI standard, designed to overcome PCI's limitations in serving the requirements of the era's high-performance graphics cards. The primary advantage of AGP is that it doesn't share the PCI bus, providing a dedicated, point-to-point pathway between the expansion slot(s) and the motherboard chipset. The direct connection also allows higher clock speeds. The second major change is the use of split transactions, wherein the address and data phases are separated. The card may send many address phases, so the host can process them in order, avoiding any long delays caused by the bus being idle during read operations. Third, PCI bus handshaking is simplified. Unlike PCI bus transactions, whose length is negotiated on a cycle-by-cycle basis using the FRAME# and STOP# signals, AGP transfers are always a multiple of 8 bytes long, with the total length included in the request. Further, rather than using the IRDY# and TRDY# signals for each word, data is transferred in blocks of 4 clock cycles (32 words at AGP 8× speed), and pauses are allowed only between blocks. Finally, AGP allows (mandatory only in AGP 3.0) sideband addressing, meaning that the address and data buses are separated, so the address phase does not use the main address/data (AD) lines at all. This is done by adding an extra 8-bit "SideBand Address" bus, over which the graphics controller can issue new AGP requests while other AGP data is flowing over the main 32 address/data (AD) lines. This results in improved overall AGP data throughput. This great improvement in memory read performance makes it practical for an AGP card to read textures directly from system RAM, while a PCI graphics card must copy it from system RAM to the card's video memory. System memory is made available using the graphics address remapping table (GART), which apportions main memory as needed for texture storage. The maximum amount of system memory available to AGP is defined as the AGP aperture.
Accelerated Graphics Port	History	History thumb\|An AGP card The AGP slot first appeared on x86-compatible system boards based on Socket 7 Intel P5 Pentium and Slot 1 P6 Pentium II processors. Intel introduced AGP support with the i440LX Slot 1 chipset on August 26, 1997, and a flood of products followed from all the major system board vendors. The first Socket 7 chipsets to support AGP were the VIA Apollo VP3, SiS 5591/5592, and the ALI Aladdin V. Intel never released an AGP-equipped Socket 7 chipset. FIC demonstrated the first Socket 7 AGP system board in November 1997 as the FIC PA-2012 based on the VIA Apollo VP3 chipset, followed very quickly by the EPoX P55-VP3 also based on the VIA VP3 chipset which was first to market. Early video chipsets featuring AGP support included the Rendition Vérité V2200, 3dfx Voodoo Banshee, Nvidia RIVA 128, 3Dlabs PERMEDIA 2, Intel i740, ATI Rage series, Matrox Millennium II, and S3 ViRGE GX/2. Some early AGP boards used graphics processors built around PCI and were simply bridged to AGP. This resulted in the cards benefiting little from the new bus, with the only improvement used being the 66 MHz bus clock, with its resulting doubled bandwidth over PCI, and bus exclusivity. Intel's i740 was explicitly designed to exploit the new AGP feature set; in fact it was designed to texture only from AGP memory, making PCI versions of the board difficult to implement (local board RAM had to emulate AGP memory), though this was eventually accomplished much later in the form of AGP-to-PCI bridges. Microsoft first introduced AGP support into Windows via the USB Supplement patch for OSR2 of Windows 95 in 1997, also known as OSR2.1. The first Windows NT-based operating system to receive AGP support was Windows NT 4.0 with Service Pack 3, also in 1997. Linux support for AGP-enhanced fast data transfers was first added in 1999 with the implementation of the AGPgart kernel module.
Accelerated Graphics Port	Later use	Later use With the increasing adoption of PCIe, graphics cards manufacturers continued to produce AGP cards as the standard became obsolete. As GPUs began to be designed to connect to PCIe, an additional PCIe-to-AGP bridge-chip was required to create an AGP-compatible graphics card. The inclusion of a bridge, and the need for a separate AGP card design, incurred additional board costs. The GeForce 6600 and ATI Radeon X800 XL, released during 2004–2005, were the first bridged cards.Gasior, Geoff. Nvidia's GeForce 6600 GT AGP graphics card: Bridging backwards , Tech Report, November 16, 2004.Gasior, Geoff. ATI's new AGP Radeons: A bridge is born , Tech Report, May 20, 2005. In 2009 AGP cards from Nvidia had a ceiling of the GeForce 7 series. In 2011 DirectX 10-capable AGP cards from AMD vendors (Club 3D, HIS, Sapphire, Jaton, Visiontek, Diamond, etc.) included the Radeon HD 2400, 3450, 3650, 3850, 4350, 4650, and 4670. The HD 5000 AGP series mentioned in the AMD Catalyst software was never available. There were many problems with the AMD Catalyst 11.2 - 11.6 AGP hotfix drivers under Windows 7 with the HD 4000 series AGP video cards; use of 10.12 or 11.1 AGP hotfix drivers is a possible workaround. Several of the vendors listed above make available past versions of the AGP drivers. By 2010, no new motherboard chipsets supported AGP and few new motherboards had AGP slots, however some continued to be produced with older AGP-supporting chipsets. In 2016, Windows 10 version 1607 dropped support for AGP. Possible future removal of support for AGP from open-source Linux kernel drivers was considered in 2020.
Accelerated Graphics Port	Versions	Versions + AGP and PCI: 32-bit buses operating at 66 and 33 MHz respectivelySpecification Voltage Clock Speed Transfers/clock Rate (MB/s)PCI 3.3/5 V 33 MHz — 1 133PCI 2.1 3.3/5 V 33/66 MHz — 1 133/266AGP 1.0 3.3 V 66 MHz 1× 1 266AGP 1.0 3.3 V 66 MHz 2× 2 533AGP 2.0 1.5 V 66 MHz 4× 4 1066AGP 3.0 0.8 V 66 MHz 8× 8 2133AGP 3.5* 0.8 V 66 MHz 8× 8 2133 Intel released "AGP specification 1.0" in 1997. It specified 3.3 V signals and 1× and 2× speeds. Specification 2.0 documented 1.5 V signaling, which could be used at 1×, 2× and the additional 4× speed and 3.0 added 0.8 V signaling, which could be operated at 4× and 8× speeds. (1× and 2× speeds are physically possible, but were not specified.) Available versions are listed in the adjacent table. AGP version 3.5 is only publicly mentioned by Microsoft under Universal Accelerated Graphics Port (UAGP), which specifies mandatory supports of extra registers once marked optional under AGP 3.0. Upgraded registers include PCISTS, CAPPTR, NCAPID, AGPSTAT, AGPCMD, NISTAT, NICMD. New required registers include APBASELO, APBASEHI, AGPCTRL, APSIZE, NEPG, GARTLO, GARTHI. There are various physical interfaces (connectors); see the Compatibility section.
Accelerated Graphics Port	Official extensions	Official extensions thumb\|AGP graphics card (Apple Macintosh) thumb\|AGP Pro graphics card
Accelerated Graphics Port	AGP Pro	AGP Pro An official extension for cards that required more electrical power, with a longer slot with additional pins for that purpose. AGP Pro cards were usually workstation-class cards used to accelerate professional computer-aided design applications employed in the fields of architecture, machining, engineering, simulations, and similar fields.
Accelerated Graphics Port	64-bit AGP	64-bit AGP A 64-bit channel was once proposed as an optional standard for AGP 3.0 in draft documents, but it was dropped in the final version of the standard. The standard allows 64-bit transfer for AGP8× reads, writes, and fast writes; 32-bit transfer for PCI operations.
Accelerated Graphics Port	Unofficial variations	Unofficial variations A number of non-standard variations of the AGP interface have been produced by manufacturers.
Accelerated Graphics Port	Internal AGP interface	Internal AGP interface Ultra-AGP, Ultra-AGPII It is an internal AGP interface standard used by SiS for the north bridge controllers with integrated graphics. The original version supports same bandwidth as AGP 8×, while Ultra-AGPII has maximum 3.2 GB/s bandwidth.
Accelerated Graphics Port	PCI-based AGP ports	PCI-based AGP ports AGP Express Not a true AGP interface, but allows an AGP card to be connected over the legacy PCI bus on a PCI Express motherboard. It is a technology used on motherboards made by ECS, intended to allow an existing AGP card to be used in a new motherboard instead of requiring a PCIe card to be obtained (since the introduction of PCIe graphics cards few motherboards provide AGP slots). An "AGP Express" slot is basically a PCI slot (with twice the electrical power) with an AGP connector. It offers backward compatibility with AGP cards, but provides incomplete support (some AGP cards do not work with AGP Express) and reduced performance—the card is forced to use the shared PCI bus at its lower bandwidth, rather than having exclusive use of the faster AGP. AGI The ASRock Graphics Interface (AGI) is a proprietary variant of the Accelerated Graphics Port (AGP) standard. Its purpose is to provide AGP-support for ASRock motherboards that use chipsets lacking native AGP support. However, it is not fully compatible with AGP, and several video card chipsets are known not to be supported. AGX The EPoX Advanced Graphics eXtended (AGX) is another proprietary AGP variant with the same advantages and disadvantages as AGI. User manuals recommend not using AGP 8× ATI cards with AGX slots. XGP The Biostar Xtreme Graphics Port is another AGP variant, also with the same advantages and disadvantages as AGI and AGX.
Accelerated Graphics Port	PCIe based AGP ports	PCIe based AGP ports AGR The Advanced Graphics Riser is a variation of the AGP port used in some PCIe motherboards made by MSI to offer limited backward compatibility with AGP. It is, effectively, a modified PCIe slot allowing for performance comparable to an AGP 4×/8× slot, but does not support all AGP cards; the manufacturer published a list of some cards and chipsets that work with the modified slot.
Accelerated Graphics Port	Compatibility	Compatibility right\|thumb\|300px\|Compatibility, AGP Keys on card (top), on slot (bottom) AGP cards are backward and forward compatible within limits. 1.5 V-only keyed cards will not go into 3.3 V slots and vice versa, though "Universal" cards exist which will fit into either type of slot. There are also unkeyed "Universal" slots that will accept either type of card. When an AGP Universal card is plugged-into an AGP Universal slot, only the 1.5 V portion of the card is used. Some cards, like Nvidia's GeForce 6 series (except the 6200) or ATI's Radeon X800 series, only have keys for 1.5 V to prevent them from being installed in older mainboards without 1.5 V support. Some of the last modern cards with 3.3 V support were: the Nvidia GeForce FX series (FX 5200, FX 5500, FX 5700, some FX 5800, FX 5900 and some FX 5950), certain Nvidia GeForce 6 series and 7 series (some 6600, 6800, 7300, 7600, 7800, 7900 and 7950 cards, really uncommon compared to their AGP 1.5v only versions; the GeForce 6200 is the only exception, as it was the most common card with 3.3 V support), the ATI Radeon 9000 series (Radeon 9500/9700/9800 (R300/R350), but not 9600/9800 (R360/RV360)). Some cards incorrectly have dual notches, and some motherboards incorrectly have fully open slots, allowing a card to be plugged into a slot that does not support the correct signaling voltage, which may damage card or motherboard. Some incorrectly designed older 3.3 V cards have the 1.5 V key. AGP Pro cards will not fit into standard slots, but standard AGP cards will work in a Pro slot. Motherboards equipped with a Universal AGP Pro slot will accept a 1.5 V or 3.3 V card in either the AGP Pro or standard AGP configuration, a Universal AGP card, or a Universal AGP Pro card. There are some proprietary systems incompatible with standard AGP; for example, Apple Power Macintosh computers with the Apple Display Connector (ADC) have an extra connector which delivers power to the attached display. Some cards designed to work with a specific CPU architecture (e.g., PC, Apple) may not work with others due to firmware issues. Mark Allen of Playtools.com has made the following comments regarding practical AGP compatibility for AGP 3.0 and AGP 2.0:
Accelerated Graphics Port	Power consumption	Power consumption + AGP power provisioning Slot Type 3.3 V 5 V 12 V 3.3 V Aux 1.5 V 3.3 V 12 V Total powerAGP 6 A 2 A 1 A 0.375 mA 2 A - - 48.25 WAGP Pro110 7.6 A 9.2 A 50 to 110 WAGP Pro50 7.6 A 4.17 A 25 to 50 W Actual power supplied by an AGP slot depends upon the card used. The maximum current drawn from the various rails is given in the specifications for the various versions. For example, if maximum current is drawn from all supplies and all voltages are at their specified upper limits, an AGP 3.0 slot can supply up to 48.25 watts; this figure can be used to specify a power supply conservatively, but in practice a card is unlikely ever to draw more than 40 W from the slot, with many using less. AGP Pro provides additional power up to 110 W. Many AGP cards had additional power connectors to supply them with more power than the slot could provide.
Accelerated Graphics Port	Protocol	Protocol An AGP bus is a superset of a 66 MHz conventional PCI bus and, immediately after reset, follows the same protocol. The card must act as a PCI target, and optionally may act as a PCI master. (AGP 2.0 added a "fast writes" extension which allows PCI writes from the motherboard to the card to transfer data at higher speed.) After the card is initialized using PCI transactions, AGP transactions are permitted. For these, the card is always the AGP master and the motherboard is always the AGP target. The card queues multiple requests which correspond to the PCI address phase, and the motherboard schedules the corresponding data phases later. An important part of initialization is telling the card the maximum number of outstanding AGP requests which may be queued at a given time. AGP requests are similar to PCI memory read and write requests, but use a different encoding on command lines C/BE[3:0] and are always 8-byte aligned; their starting address and length are always multiples of 8 bytes (64 bits). The three low-order bits of the address are used instead to communicate the length of the request. Whenever the PCI GNT# signal is asserted, granting the bus to the card, three additional status bits ST[2:0] indicate the type of transfer to be performed next. If the bits are 0xx, a previously queued AGP transaction's data is to be transferred; if the three bits are 111, the card may begin a PCI transaction or (if sideband addressing is not in use) queue a request in-band using PIPE#.
Accelerated Graphics Port	AGP command codes	AGP command codes Like PCI, each AGP transaction begins with an address phase, communicating an address and 4-bit command code. The possible commands are different from PCI, however: 000p Read Read 8×(AD[2:0]+1) = 8, 16, 24, ..., 64 bytes. The least significant bit p is 0 for low-priority, 1 for high. 001x (reserved): 010p Write Write 8×(AD[2:0]+1) = 8–64 bytes. 011x (reserved): 100p Long read Read 32×(AD[2:0]+1) = 32, 64, 96, ..., 256 bytes. This is the same as a read request, but the length is multiplied by four. 1010 Flush Force previously written data to memory, for synchronization. This acts as a low-priority read, taking a queue slot and returning 8 bytes of random data to indicate completion. The address and length supplied with this command are ignored. 1011 (reserved): 1100 Fence This acts as a memory fence, requiring that all earlier AGP requests complete before any following requests. Ordinarily, for increased performance, AGP uses a very weak consistency model, and allows a later write to pass an earlier read. (E.g. after sending "write 1, write 2, read, write 3, write 4" requests, all to the same address, the read may return any value from 2 to 4. Only returning 1 is forbidden, as writes must complete before following reads.) This operation does not require any queue slots. 1101 Dual address cycle When making a request to an address above 232, this is used to indicate that a second address cycle will follow with additional address bits. This operates like a regular PCI dual address cycle; it is accompanied by the low-order 32 bits of the address (and the length), and the following cycle includes the high 32 address bits and the desired command. The two cycles make one request, and take only one slot in the request queue. This request code is not used with side-band addressing. 111x (reserved): AGP 3.0 dropped high-priority requests and the long read commands, as they were little used. It also mandated side-band addressing, thus dropping the dual address cycle, leaving only four request types: low-priority read (0000), low-priority write (0100), flush (1010) and fence (1100).
Accelerated Graphics Port	In-band AGP requests using PIPE#	In-band AGP requests using PIPE# To queue a request in-band, the card must request the bus using the standard PCI REQ# signal, and receive GNT# plus bus status ST[2:0] equal to 111. Then, instead of asserting FRAME# to begin a PCI transaction, the card asserts the PIPE# signal while driving the AGP command, address, and length on the C/BE[3:0], AD[31:3] and AD[2:0] lines, respectively. (If the address is 64 bits, a dual address cycle similar to PCI is used.) For every cycle that PIPE# is asserted, the card sends another request without waiting for acknowledgement from the motherboard, up to the configured maximum queue depth. The last cycle is marked by deasserting REQ#, and PIPE# is deasserted on the following idle cycle.
Accelerated Graphics Port	Side-band AGP requests using SBA[7:0]	Side-band AGP requests using SBA[7:0] If side-band addressing is supported and configured, the PIPE# signal is not used. (And the signal is re-used for another purpose in the AGP 3.0 protocol, which requires side-band addressing.) Instead, requests are broken into 16-bit pieces which are sent as two bytes across the SBA bus. There is no need for the card to ask permission from the motherboard; a new request may be sent at any time as long as the number of outstanding requests is within the configured maximum queue depth. The possible values are: 0aaa aaaa aaaa alll Queue a request with the given low-order address bits A[14:3] and length 8×(L[2:0]+1). The command and high-order bits are as previously specified. Any number of requests may be queued by sending only this pattern, as long as the command and higher address bits remain the same. 10cc ccra aaaa aaaa Use command C[3:0] and address bits A[23:15] for future requests. (Bit R is reserved.) This does not queue a request, but sets values that will be used in all future queued requests. 110r aaaa aaaa aaaa Use address bits A[35:24] for future requests. 1110 aaaa aaaa aaaa Use address bits A[47:36] for future requests. 1111 0xxx, 1111 10xx, 1111 110x Reserved, do not use. 1111 1110 Synchronization pattern used when starting the SBA bus after an idle period. 1111 1111 No operation; no request. At AGP 1× speed, this may be sent as a single byte and a following 16-bit side-band request started one cycle later. At AGP 2× and higher speeds, all side-band requests, including this NOP, are 16 bits long. Sideband address bytes are sent at the same rate as data transfers, up to 8× the 66 MHz basic bus clock. Sideband addressing has the advantage that it mostly eliminates the need for turnaround cycles on the AD bus between transfers, in the usual case when read operations greatly outnumber writes.
Accelerated Graphics Port	AGP responses	AGP responses While asserting GNT#, the motherboard may instead indicate via the ST bits that a data phase for a queued request will be performed next. There are four queues: two priorities (low- and high-priority) for each of reads and writes, and each is processed in order. Obviously, the motherboard will attempt to complete high-priority requests first, but there is no limit on the number of low-priority responses which may be delivered while the high-priority request is processed. For each cycle when the GNT# is asserted and the status bits have the value 00p, a read response of the indicated priority is scheduled to be returned. At the next available opportunity (typically the next clock cycle), the motherboard will assert TRDY# (target ready) and begin transferring the response to the oldest request in the indicated read queue. (Other PCI bus signals like FRAME#, DEVSEL# and IRDY# remain deasserted.) Up to four clock cycles worth of data (16 bytes at AGP 1× or 128 bytes at AGP 8×) are transferred without waiting for acknowledgement from the card. If the response is longer than that, both the card and motherboard must indicate their ability to continue on the third cycle by asserting IRDY# (initiator ready) and TRDY#, respectively. If either one does not, wait states will be inserted until two cycles after they both do. (The value of IRDY# and TRDY# at other times is irrelevant and they are usually deasserted.) The C/BE# byte enable lines may be ignored during read responses, but are held asserted (all bytes valid) by the motherboard. The card may also assert the RBF# (read buffer full) signal to indicate that it is temporarily unable to receive more low-priority read responses. The motherboard will refrain from scheduling any more low-priority read responses. The card must still be able to receive the end of the current response, and the first four-cycle block of the following one if scheduled, plus any high-priority responses it has requested. For each cycle when GNT# is asserted and the status bits have the value 01p, write data is scheduled to be sent across the bus. At the next available opportunity (typically the next clock cycle), the card will assert IRDY# (initiator ready) and begin transferring the data portion of the oldest request in the indicated write queue. If the data is longer than four clock cycles, the motherboard will indicate its ability to continue by asserting TRDY# on the third cycle. Unlike reads, there is no provision for the card to delay the write; if it didn't have the data ready to send, it shouldn't have queued the request. The C/BE# lines are used with write data, and may be used by the card to select which bytes should be written to memory. The multiplier in AGP 2×, 4× and 8× indicates the number of data transfers across the bus during each 66 MHz clock cycle. Such transfers use source synchronous clocking with a "strobe" signal (AD_STB[0], AD_STB[1], and SB_STB) generated by the data source. AGP 4× adds complementary strobe signals. Because AGP transactions may be as short as two transfers, at AGP 4× and 8× speeds it is possible for a request to complete in the middle of a clock cycle. In such a case, the cycle is padded with dummy data transfers (with the C/BE# byte enable lines held deasserted).
Accelerated Graphics Port	Connector pinout	Connector pinout The AGP connector contains almost all PCI signals, plus several additions. The connector has 66 contacts on each side, although 4 are removed for each keying notch. Pin 1 is closest to the I/O bracket, and the B and A sides are as in the table, looking down at the motherboard connector. Contacts are spaced at 1 mm intervals, however they are arranged in two staggered vertical rows so that there is 2 mm space between pins in each row. Odd-numbered A-side contacts, and even-numbered B-side contacts are in the lower row (1.0 to 3.5 mm from the card edge). The others are in the upper row (3.7 to 6.0 mm from the card edge). + Accelerated Graphics Port connector pinout Pin Side B Side A Comments 1 OVERCNT# +12 V USB port overcurrent warning 2 +5 V TYPEDET# Pulled low by card to indicate 1.5 V (AGP 2.0 4x) ability 3 +5 V GC_DET# Pulled low by card to indicate 0.8 V (AGP 3.0 8x) ability 4 USB+ USB− USB pins for pass through to monitor 5 Ground Ground 6 INTB# INTA# Interrupt lines (open-drain) 7 CLK RST# 66 MHz clock, Bus reset 8 REQ# GNT# Bus request from card, and grant from motherboard 9 +3.3 V +3.3 V 10 ST[0] ST[1] AGP status (valid while GNT# low) 11 ST[2] MB_DET# Pulled low by motherboard to indicate 0.8 V (AGP 3.0 8x) ability 12 RBF# PIPE# DBI_HI Read buffer full, Pipeline request, Data bus inversion[31:16] 13 Ground Ground 14 DBI_LO WBF# Data bus inversion [15:0], Write buffer full 15 SBA[0] SBA[1] Sideband address bus 16 +3.3 V +3.3 V 17 SBA[2] SBA[3] 18 SB_STB SB_STB# 19 Ground Ground 20 SBA[4] SBA[5] 21 SBA[6] SBA[7] 22 Reserved Reserved Key notch for 3.3 V AGP cards 23 Ground Ground 24 +3.3 V aux Reserved 25 +3.3 V +3.3 V 26 AD[31] AD[30] Address/data bus (upper half) 27 AD[29] AD[28] 28 +3.3 V +3.3 V 29 AD[27] AD[26] 30 AD[25] AD[24] 31 Ground Ground 32 AD_STB[1] AD_STB[1]# 33 AD[23] C/BE[3]# 34 Vddq Vddq 35 AD[21] AD[22] 36 AD[19] AD[20] 37 Ground Ground 38 AD[17] AD[18] 39 C/BE[2]# AD[16] 40 Vddq Vddq 3.3 or 1.5 V 41 IRDY# FRAME# Initiator ready, Transfer in progress 42 +3.3 V aux Reserved Key notch for 1.5 V AGP cards 43 Ground Ground 44 Reserved Reserved 45 +3.3 V +3.3 V 46 DEVSEL# TRDY# Target selected, Target ready 47 Vddq STOP# Target requests halt 48 PERR# PME# Parity error, Power management event (optional) 49 Ground Ground 50 SERR# PAR System error, Even parity for (1x) PCI transactions only 51 C/BE[1]# AD[15] Address/data bus (lower half) 52 Vddq Vddq 53 AD[14] AD[13] 54 AD[12] AD[11] 55 Ground Ground 56 AD[10] AD[9] 57 AD[8] C/BE[0]# 58 Vddq Vddq 59 AD_STB[0] AD_STB[0]# 60 AD[7] AD[6] 61 Ground Ground 62 AD[5] AD[4] 63 AD[3] AD[2] 64 Vddq Vddq 65 AD[1] AD[0] 66 Vregcg Vrefgc I/O reference voltages +Legend Ground pin Zero volt reference Power pin Supplies power to the AGP card Output pin Driven by the AGP card, received by the motherboard Initiator output Driven by the master/initiator, received by the targetI/O signal May be driven by initiator or target, depending on operation Target output Driven by the target, received by the initiator/master Input Driven by the motherboard, received by the AGP card Open drain May be pulled low and/or sensed by card or motherboard Reserved Not presently used, do not connect PCI signals omitted are: The −12 V supply The third and fourth interrupt requests (INTC#, INTD#) The JTAG pins (TRST#, TCK, TMS, TDI, TDO) The SMBus pins (SMBCLK, SMBDAT) The IDSEL pin; an AGP card connects AD[16] to IDSEL internally The 64-bit extension (REQ64#, ACK64#) and 66 MHz (M66EN) pins The LOCK# pin for locked transaction support Signals added are: Data strobes AD_STB[1:0] (and AD_STB[1:0]# in AGP 2.0) The sideband address bus SBA[7:0] and SB_STB (and SB_STB# in AGP 2.0) The ST[2:0] status signals USB+ and USB− (and OVERCNT# in AGP 2.0) The PIPE# signal (removed in AGP 3.0 for 0.8 V signaling) The RBF# signal The TYPEDET#, Vregcg and Vreggc pins (AGP 2.0 for 1.5V signaling) The DBI_HI and DBI_LO signals (AGP 3.0 for 0.8 V signaling only) The GC_DET# and MB_DET# pins (AGP 3.0 for 0.8V signaling) The WBF# signal (AGP 3.0 fast write extension)
Accelerated Graphics Port	See also	See also List of device bandwidths Serial Digital Video Out for ADD DVI adapter cards AGP Inline Memory Module
Accelerated Graphics Port	Notes	Notes
Accelerated Graphics Port	References	References
Accelerated Graphics Port	External links	External links Archived AGP Implementors Forum AGP specifications: 1.0, 2.0, 3.0, Pro 1.0, Pro 1.1a AGP Compatibility For Sticklers AGP pinout AGP expansion slots AGP compatibility (with pictures) Universal Accelerated Graphics Port (UAGP) How Stuff Works - AGP A discussion from 2003 of what AGP aperture is, how it works, and how much memory should be allocated to it. Category:Macintosh internals Category:IBM PC compatibles Category:Intel graphics Category:Motherboard expansion slot Category:Peripheral Component Interconnect
Accelerated Graphics Port	Table of Content	Short description, {{Anchor, History, Later use, Versions, Official extensions, AGP Pro, 64-bit AGP, Unofficial variations, Internal AGP interface, PCI-based AGP ports, PCIe based AGP ports, Compatibility, Power consumption, Protocol, AGP command codes, In-band AGP requests using PIPE#, Side-band AGP requests using SBA[7:0], AGP responses, Connector pinout, See also, Notes, References, External links
Andreas Aagesen	One source	thumb\|Andreas Aagesen Andreas Aagesen (5 August 1826 – 26 October 1879) was a Danish jurist.
Andreas Aagesen	Biography	Biography Aagesen was educated for the law at Christianshavn and Copenhagen, and interrupted his studies in 1848 to take part in the First Schleswig War, in which he served as the leader of a reserve battalion. In 1855 Aagesen became a professor of jurisprudence at the University of Copenhagen. In 1870 he was appointed a member of the commission for drawing up a maritime and commercial code, and the navigation law of 1882 is mainly his work. In 1879 he was elected a member of the Landsting (one of two chambers of the Danish Parliament, the Rigsdagen); but it is as a teacher at the university that he won his reputation. Aagesen was Carl Christian Hall's successor as lecturer on Roman law at the university, and in this department his research was epoch-making.
Andreas Aagesen	Bibliography	Bibliography Among his numerous juridical works may be mentioned: Bidrag til Læren om Overdragelse af Ejendomsret, Bemærkinger om Rettigheder over Ting (Copenhagen, 1866, 1871–1872); Fortegnelse over Retssamlinger, Retslitteratur i Danmark, Norge, Sverige (Copenhagen, 1876).
Andreas Aagesen	Notes	Notes
Andreas Aagesen	References	References Attribution This source cites: Johan Henrik Deuntzer, Dansk biografisk leksikon, vol. i. (Copenhagen, 1887) (online); Samlede Skrifter, edited by F. C. Bornemann (Copenhagen, 1883)
Andreas Aagesen	External links	External links Obituary Category:1826 births Category:1879 deaths Category:19th-century Danish jurists Category:Members of the Landsting (Denmark) Category:Academic staff of the University of Copenhagen Category:19th-century Danish army officers Category:Rectors of the University of Copenhagen
Andreas Aagesen	Table of Content	One source, Biography, Bibliography, Notes, References, External links
Aalen	Short description	Aalen () is a town located in the eastern part of the German state of Baden-Württemberg, about east of Stuttgart and north of Ulm. It is the seat of the Ostalbkreis district and is its largest town. It is also the largest town in the Ostwürttemberg region. Since 1956, Aalen has had the status of Große Kreisstadt (major district town). It is noted for its many half-timbered houses constructed from the 16th century through the 18th century. With an area of 146.63 km2, Aalen is ranked 7th in Baden-Württemberg and 2nd within the Government Region of Stuttgart, after Stuttgart. With a population of about 66,000, Aalen is the 15th most-populated settlement in Baden-Württemberg.
Aalen	Geography	Geography
Aalen	Situation	Situation thumb\|left\|Aerial view of the district of Unterkochen (the town centre is partly covered and in the background), the Aalen lowlands well perceptible in the back Aalen is situated on the upper reaches of the river Kocher, at the foot of the Swabian Jura which lies to the south and south-east, and close to the hilly landscapes of the Ellwangen Hills to the north and the Welland to the north-west. The west of Aalen's territory is on the foreland of the eastern Swabian Jura, and the north and north-west is on the Swabian-Franconian Forest, both being part of the Swabian Keuper-Lias Plains. The south-west is part of the Albuch, the east is part of the Härtsfeld, these two both being parts of the Swabian Jura. The Kocher enters the town's territory from Oberkochen to the south, crosses the district of Unterkochen, then enters the town centre, where the Aal flows into it. The Aal is a small river located only within the town's territory. Next, the Kocher crosses the district of Wasseralfingen, then leaves the town for Hüttlingen. Rivers originating near Aalen are the Rems (near Essingen, west of Aalen) and the Jagst (near Unterschneidheim, east of Aalen), both being tributaries of the Neckar, just like the Kocher. The elevation in the centre of the market square is relative to Normalhöhennull. The territory's lowest point is at the Lein river near Rodamsdörfle, the highest point is the Grünberg's peak near Unterkochen at .
Aalen	Geology	Geology Aalen's territory ranges over all lithostratigraphic groups of the South German Jurassic: Aalen's south and the Flexner massif are on top of the White Jurassic, the town centre is on the Brown Jurassic, and a part of Wasseralfingen is on the Black Jurassic. As a result, the town advertises itself as a "Geologist's Mecca". Most parts of the territory are on the Opalinuston-Formation (Opalinum Clay Formation) of the Aalenian subdivision of the Jurassic Period, which is named after Aalen. On the Sandberg, the Schnaitberg and the Schradenberg hills, all in the west of Aalen, the Eisensandstein (Iron Sandstone) formation emerges to the surface. On the other hills of the city, sands (Goldshöfer Sande), gravel and residual rubble prevail. The historic centre of Aalen and the other areas in the Kocher valley are founded completely on holocenic floodplain loam (Auelehm) and riverbed gravel that have filled in the valley. Most parts of Dewangen and Fachsenfeld are founded on formations of Jurensismergel (Jurensis Marl), Posidonienschiefer (cf. Posidonia Shale), Amaltheenton (Amalthean Clay), Numismalismergel (Numismalis Marl) and Obtususton (Obtusus Clay, named after Asteroceras obtusum ammonites) moving from south to north, all belonging to the Jurassic and being rich in fossils. They are at last followed by the Trossingen Formation already belonging to the Late Triassic. Until 1939 iron ore was mined on the Braunenberg hill. (see Tiefer Stollen section).
Aalen	Extent of the borough	Extent of the borough The maximum extent of the town's territory amounts to in a north–south dimension and in an east–west dimension. The area is , which includes 42.2% agriculturally used area and 37.7% of forest. 11.5% are built up or vacant, 6.4% is used by traffic infrastructure. Sporting and recreation grounds and parks comprise 1% , other areas 1.1% .
Aalen	Boroughs	Boroughs thumb\|Map of Aalen's boroughs (Stadtbezirke) Aalen's territory consists of the town centre (Kernstadt) and the municipalities merged from between 1938 (Unterrombach) and 1975 (Wasseralfingen, see mergings section). The municipalities merged in the course of the latest municipal reform of the 1970s are also called Stadtbezirke (quarters or districts), and are Ortschaften ("settlements") in terms of Baden-Württemberg's Gemeindeordnung (municipal code), which means, each of them has its own council elected by its respective residents (Ortschaftsrat) and is presided by a spokesperson (Ortsvorsteher). The town centre itself and the merged former municipalities consist of numerous villages (Teilorte), mostly separated by open ground from each other and having their own independent and long-standing history. Some however have been created as planned communities, which were given proper names, but no well-defined borders. List of villages: Borough Coat of arms Area in km2 Residents(1 July 2011) Villages Town centre 40px\|Coat of arms of Aalen 30,62 34.466Hammerstadt, Hofherrnweiler, Mädle, Mantelhof, Neßlau, Oberrombach, Unterrombach, the latter also known as Weststadt ("West Town") Dewangen 40px\|Coat of arms of Dewangen 16,53 3.183Aushof, Bernhardsdorf, Bronnenhäusle, Degenhof, Dreherhof, Faulherrnhof, Freudenhöfle, Gobühl, Großdölzerhof, Haldenhaus, Hüttenhöfe, Kleindölzerhof, Kohlhöfle, Langenhalde, Lusthof, Neuhof, Rauburr, Reichenbach, Riegelhof, Rodamsdörfle, Rotsold, Schafhof, Schultheißenhöfle, Streithöfle, Tannenhof, Trübenreute Ebnat 40px\|Coat of arms of Ebnat 21,16 3.327Affalterwang, Diepertsbuch, Niesitz Fachsenfeld 40px\|Coat of arms of Fachsenfeld 3,95 3.605Bodenbach, Hangendenbuch, Himmlingsweiler, Mühlhäusle, Scherrenmühle, Waiblingen Hofen 40px\|Coat of arms of Hofen 12,58 2.080Attenhofen, Fürsitz, Goldshöfe, Heimatsmühle, Oberalfingen, Wagenrain Unterkochen 40px\|Coat of arms of Unterkochen 21,44 4.927Birkhöfe, Glashütte, Neukochen, Neuziegelhütte, Stefansweilermühle Waldhausen 40px\|Coat of arms of Waldhausen 24,38 2.335Arlesberg, Bernlohe, Beuren, Brastelburg, Geiselwang, Hohenberg, Neubau, Simmisweiler Wasseralfingen 40px\|Coat of arms of Wasseralfingen 15,97 11.767Affalterried, Brausenried, Bürgle, Erzhäusle, Heisenberg, Mäderhof, Onatsfeld, Rötenberg, Röthardt, Salchenhof, Treppach, Weidenfeld
Aalen	Spatial planning	Spatial planning Aalen forms a Mittelzentrum ("medium-level centre") within the Ostwürttemberg region. Its designated catchment area includes the following municipalities of the central and eastern Ostalbkreis district: Abtsgmünd, Bopfingen, Essingen, Hüttlingen, Kirchheim am Ries, Lauchheim, Neresheim, Oberkochen, Riesbürg and Westhausen, and is interwoven with the catchment area of Nördlingen, situated in Bavaria, east of Aalen.
Aalen	Climate	Climate As Aalen's territory sprawls on escarpments of the Swabian Jura, on the Albuch and the Härtsfeld landscapes, and its elevation has a range of , the climate varies from district to district. The weather station the following data originate from is located between the town centre and Wasseralfingen at about and has been in operation since 1991. The sunshine duration is about 1800 hours per year, which averages 4.93 hours per day. So Aalen is above the German average of 1550 hours per year. However, with 167 days of precipitation, Aalen's region also ranks above the German average of 138. The annual rainfall is , about the average within Baden-Württemberg. The annual mean temperature is . Here Aalen ranks above the German average of and the Baden-Württemberg average of .
Aalen	History	History
Aalen	Civic history	Civic history
Aalen	First settlements	First settlements Numerous remains of early civilization have been found in the area. Tools made of flint and traces of Mesolithic human settlement dated between the 8th and 5th millennium BC were found on several sites on the margins of the Kocher and Jagst valleys. On the Schloßbaufeld plateau (appr. ), situated behind Kocherburg castle near Unterkochen, a hill-top settlement was found, with the core being dated to the Bronze Age. In the Appenwang forest near Wasseralfingen, in Goldshöfe, and in Ebnat, tumuli of the Hallstatt culture were found. In Aalen and Wasseralfingen, gold and silver coins left by the Celts were found. The Celts were responsible for the fortifications in the Schloßbaufeld settlement consisting of sectional embankments and a stone wall. Also, Near Heisenberg (Wasseralfingen), a Celtic nemeton has been identified; however, it is no longer readily apparent.
Aalen	Roman era	Roman era thumb\|The Roman fort's excavated foundation walls After abandoning the Alb Limes (a limes generally following the ridgeline of the Swabian Jura) around 150 AD, Aalen's territory became part of the Roman Empire, in direct vicinity of the then newly erected Rhaetian Limes. The Romans erected a castrum to house the cavalry unit Ala II Flavia milliaria; its remains are known today as Kastell Aalen ("Aalen Roman fort"). The site is west of today's town centre at the bottom of the Schillerhöhe hill. With about 1,000 horsemen and nearly as many grooms, it was the largest fort of auxiliaries along the Rhaetian Limes. There were Civilian settlements adjacent along the south and the east. Around 260 AD, the Romans gave up the fort as they withdrew their presence in unoccupied Germania back to the Rhine and Danube rivers, and the Alamanni took over the region. Based on 3rd- and 4th-century coins found, the civilian settlement continued to exist for the time being. However, there is no evidence of continued civilization between the Roman era and the Middle Ages.
Aalen	Foundation	Foundation Based on discovery of alamannic graves, archaeologists have established the 7th century as the origination of Aalen. In the northern and western walls of St. John's church, which is located directly adjacent to the eastern gate of the Roman fort, Roman stones were incorporated. The building that exists today probably dates to the 9th century. The first mention of Aalen was in 839, when emperor Louis the Pious reportedly permitted the Fulda monastery to exchange land with the Hammerstadt village, then known as Hamarstat. Aalen itself was first mentioned in an inventory list of Ellwangen Abbey, dated ca. 1136, as the village Alon, along with a lower nobleman named Conrad of Aalen. This nobleman probably had his ancestral castle at a site south of today's town centre and was subject first to Ellwangen abbey, later to the House of Hohenstaufen, and eventually to the House of Oettingen. 1426 was the last time a member of that house was mentioned in connection with Aalen. Documents, from the Middle Ages, indicate that the town of Aalen was founded by the Hohenstaufen some time between 1241 and 1246, but at a different location than the earlier village, which was supposedly destroyed in 1388 during the war between the Alliance of Swabian Cities and the Dukes of Bavaria. Later, it is documented that the counts of Oettingen ruled the town in 1340. They are reported to have pawned the town to Count Eberhard II and subsequently to the House of Württemberg in 1358 or 1359 in exchange for an amount of money.
Aalen	Imperial City	Imperial City During the war against Württemberg, Emperor Charles IV took the town without a fight after a siege. On 3 December 1360, he declared Aalen an Imperial City, that is, a city or town responsible only to the emperor, a status that made it a quasi-sovereign city-state and that it kept until 1803. In 1377, Aalen joined the Alliance of Swabian Cities, and in 1385, the term civitas appears in the town's seal for the first time. In 1398, Aalen was granted the right to hold markets, and in 1401 Aalen obtained proper jurisdiction. thumb\|Town view of 1528 The oldest artistic representation of Aalen was made in 1528. It was made as the basis of a lawsuit between the town and the Counts of Oettingen at the Reichskammergericht in Speyer. It shows Aalen surrounded by walls, towers, and double moats. The layout of the moats, which had an embankment built between them, is recognizable by the present streets named Nördlicher, Östlicher, Südlicher and Westlicher Stadtgraben (Northern, Eastern, Southern and Western Moat respectively). The wall was about tall, 1518 single paces () long and enclosed an area of . During its early years, the town had two town gates: The Upper or Ellwangen Gate in the east, and St. Martin's gate in the south; however due to frequent floods, St. Martin's gate was bricked up in the 14th century and replaced by the Lower or Gmünd Gate built in the west before 1400. Later, several minor side gates were added. The central street market took place on the Wettegasse (today called Marktplatz, "market square") and the Reichsstädter Straße. So the market district stretched from one gate to the other, however in Aalen it was not straight, but with a 90-degree curve between southern (St. Martin's) gate and eastern (Ellwangen) gate. Around 1500, the civic graveyard was relocated from the town church to St. John's Church, and in 1514, the Vierundzwanziger ("Group of 24") was the first assembly constituted by the citizens.
Aalen	Reformation	Reformation Delegated by Württemberg's Duke Louis III, on 28 June 1575, nearly 30 years after Martin Luther's death, Jakob Andreae, professor and chancellor of the University of Tübingen, arrived in Aalen. The sermon he gave the following day convinced the mayor, the council, and the citizens to adopt the Reformation in the town. Andreae stayed in Aalen for four weeks to help with the change. This brought along enormous changes, as the council forbade the Roman Catholic priests to celebrate masses and give sermons. However, after victories of the imperial armies at the beginning of the Thirty Years' War, the Prince-Provostry of Ellwangen, which still held the right of patronage in Aalen, were able to temporarily bring Catholicism back to Aalen; however after the military successes of the Protestant Union, Protestant church practices were instituted again.
Aalen	Fire of 1634	Fire of 1634 On the night of 5 September 1634, two ensigns of the army of Bernard of Saxe-Weimar who were fighting with the Swedes and retreating after the Battle of Nördlingen set fire to two powder carriages, to prevent the war material to fall into Croatian hands and to prevent their advance. The result was a conflagration, that some say destroyed portions of the town. There are differing stories regarding this fire. According to 17th-century accounts, the church and all the buildings, except of the Schwörturm tower, were casualties of the fire, and only nine families survived. 19th century research by Hermann Bauer, Lutheran pastor and local historian, discovered that the 17th-century account is exaggerated, but he does agree that the town church and buildings in a "rather large" semicircle around it were destroyed. The fire also destroyed the town archive housed in an addition to the church, with all of its documents. After the fire, soldiers of both armies went through the town looting. It took nearly 100 years for the town to reach its population of 2,000. thumb\|Territory of the Imperial City of Aalen French troops marched through Aalen in 1688 during the Nine Years' War; however, unlike other places, they left without leaving severe damages. The French came through again in 1702 during the War of the Spanish Succession and in 1741 during the War of the Austrian Succession, the latter also caused imperial troops to move through in 1743. The town church's tower collapsed in 1765, presumably because proper building techniques were not utilized during the reconstruction after the fire of 1634. The collapsing tower struck two children of the tower watchman who died of their injuries, and destroyed the nave, leaving only the altar cross intact. The remaining walls had to be knocked down due to the damage. Reconstruction began the same year, creating the building that exists today. On 22 November 1749, the so-called Aalen protocol regulating the cohabitation of Lutherans and Roman Catholics in the jointly ruled territory of Oberkochen was signed in Aalen by the Duchy of Württemberg and the Prince-Provostry of Ellwangen. Aalen had been chosen because of its neutral status as a Free Imperial City.
Aalen	Napoleonic era and end of the Imperial City of Aalen	Napoleonic era and end of the Imperial City of Aalen thumb\|French attack on Aalen of 1796 During the War of the First Coalition (1796), Aalen was looted. The War of the Second Coalition concluded in 1801 with the signing of the Treaty of Lunéville, which led to the German Mediatisation of 1803 that assigned most Imperial Cities to the neighbouring principalities. Aalen was assigned to the Electorate of Württemberg, which later became the Kingdom of Württemberg, and became seat of the District ("Oberamt") of Aalen. During the War of the Third Coalition, on 6 October 1805, Napoleon Bonaparte arrived in Aalen, with an army of 40,000. This event, along with Bavarian and Austrian troops moving in some days later, caused miseries that according to the town clerk "no feather could describe". In 1811, the municipality of Unterrombach was formed out of some villages previously belonging to Aalen, some to the Barons of Wöllwarth, and the eastern villages were assigned to the municipality of Unterkochen. In the age of the Napoleonic wars, the town walls were no longer of use, and in the 18th century, with the maintenance of walls, gates and towers becoming more neglected Finally, due to the fact that the funds were lacking, starting in 1800, most towers were demolished, the other buildings followed soon.
Aalen	Industrial Revolution	Industrial Revolution thumb\|Railway station and town after 1861 Before the Industrial Revolution, Aalen's economy was shaped by its rural setting. Many citizens were pursuing farming besides their craft, such as tanning. In the mid 19th century, there were twelve tanneries in Aalen, due to the proximity of Ulm, an important sales market. Other crafts that added to the economy were weaving mills, which produced linen and woolen goods, and baking of sweet pastry and gingerbread. In Aalen, industrialisation was a slow process. The first major increase was in the 1840s, when three factories for nails and some other factories emerged. It was the link with the railway network, by the opening of the Rems Railway from Cannstatt to Wasseralfingen in 1861, that brought more industry to Aalen, along with the royal steel mill (later Schwäbische Hüttenwerke) in Wasseralfingen. The Rems Railway's extension to Nördlingen in 1863, the opening of the Brenz Railway in 1864 and of the Upper Jagst Railway in 1866 turned Aalen into a railway hub. Furthermore, between 1901 and its shutdown in 1972, the Härtsfeld Railway connected Aalen with Dillingen an der Donau via Neresheim. Part of becoming a rail hub entailed more jobs based on the rail industry. These included, a maintenance facility, a roundhouse, an administrative office, two track maintenance shops, and a freight station with an industrial branch line. This helped shape Aalen into what today's historians call a "railwayman's town". Starting in 1866, the utilities in town all began to be upgraded. Starting with the Aalen gasworks which were opened and gas lighting was introduced. Then in 1870, a modern water supply system was started and in 1912 the mains electricity. Finally, in 1935, the first electrically powered streetlights were installed. thumb\|left\|Aalen by 1900 To fight housing shortage during and immediately after World War I, the town set up barracks settlement areas at the Schlauch and Alter Turnplatz grounds. In spite of the industry being crippled by the Great Depression of 1929, the public baths at the Hirschbach creek where modernized, extended and re-opened in 1931.
Aalen	Nazi era	Nazi era In the federal election of 1932, the Nazi Party performed below average in Aalen with 25.8% of votes compared to 33.1% on the national level, thus finishing second to the Centre Party which had 26.6% (11.9% nationwide) of the votes, and ahead of the Social Democratic Party of Germany with 19.8% (20.4%). However, the March 1933 federal elections showed that the sentiment had changed as the Nazi Party received 34.1% (still below German average 43.9% nationwide), but by far the leading vote-getter in Aalen, followed by the Centre party at 26.6% (11.3% nationwide) and the Social Democrats 18.6% (18.3% nationwide). The democratically elected mayor Friedrich Schwarz remained in office until the Nazis removed him from office, in 1934, and replaced him by chairman of the Nazi Party town council head and brewery owner Karl Barth. Karl Barth was a provisional mayor until the more permanent solution of Karl Schübel. In August 1934, the Nazi consumer fair Braune Messe ("brown fair") was held in Aalen. During Nazi rule in Germany, there were many military offices constructed in Aalen, starting with, in 1936, a military district riding and driving school for Wehrkreis V. The Nazis also built an army replenishment office (Heeresverpflegungsamt), a branch arsenal office (Heeresnebenzeugamt) and a branch army ammunitions institute (Heeresnebenmunitionsanstalt). Starting in 1935, mergers of neighbouring towns began. In 1938, the Oberamt was transformed into the Landkreis of Aalen and the municipality of Unterrombach was disbanded. Its territory was mostly added to Aalen, with the exception of Hammerstadt, which was added to the municipality of Dewangen. Forst, Rauental and Vogelsang were added to Essingen (in 1952 the entire former municipality of Unterrombach was merged into Aalen, with the exception of Forst, which is part of Essingen until present). In September 1944, the Wiesendorf concentration camp, a subcamp of Natzweiler-Struthof, was constructed nearby. It was designated for between 200 and 300 prisoners who were utilized for forced labor in industrial businesses nearby. Until the camp's dissolution in February 1945, 60 prisoners died. Between 1946 and 1957, the camp buildings were torn down; however, its foundations are still in place in house Moltkestraße 44/46. Also, there were several other labour camps which existed where prisoners of war along with women and men from occupied countries occupied by Germany were pooled. The prisoners at these other camps had to work for the arms industry in major businesses like Schwäbische Hüttenwerke and the Alfing Keßler machine factory. In the civic hospital, the deaconesses on duty were gradually replaced by National Socialist People's Welfare nurses. Nazi eugenics led to compulsory sterilization of some 200 persons there. Fortunately, Aalen avoided most of the combat activity during World War II. It was only during the last weeks of the war that Aalen became a target of air warfare, which led to the destruction and severe damage of parts of the town, the train station, and other railway installations. A series of air attacks lasting for more than three weeks reached its peak on 17 April 1945, when United States Army Air Forces planes bombed the branch arsenal office and the train station. During this raid, 59 people were killed, more than half of them buried by debris, and more than 500 lost their homes. Also, 33 residential buildings, 12 other buildings and 2 bridges were destroyed, and 163 buildings, including 2 churches, were damaged. Five days later, the Nazi rulers of Aalen were unseated by the US forces.
Aalen	Post-war era	Post-war era Aalen became part of the State of Baden-Württemberg, upon its creation in 1952. Then, with the Baden-Württemberg territorial reform of 1973, the District of Aalen was merged into the Ostalbkreis district. Subsequently, Aalen became seat of that district, and in 1975, the town's borough attained its present size (see below). The population of Aalen exceeded the limit of 20,000, which was the requirement for to gain the status of Große Kreisstadt ("major district town") in 1946. On 1 August 1947, Aalen was declared Unmittelbare Kreisstadt ("immediate district town"), and with the creation of the Gemeindeordnung (municipal code) of Baden-Württemberg on 1 April 1956, it was declared Große Kreisstadt.
Aalen	Religions	Religions On 31 December 2008, 51.1 percent of Aalen were members of the Catholic Church, 23.9 percent were members of the Evangelical-Lutheran Church. About 25 percent belong to other or no religious community or gave no information. The district of Waldhausen was the district with the highest percentage of Roman Catholic inhabitants at 75.6 percent, and the central district was the one with the highest percentage of Evangelical-Lutheran inhabitants at 25.6 percent, as well as those claiming no religious preference at 32.5 percent.
Aalen	Protestantism	Protestantism Aalen's population originally was subject to the jus patronatus of Ellwangen Abbey, and thus subject to the Roman Catholic Diocese of Augsburg. With the assistance of the Duke of Württemberg, in 1575, the reformation was implemented in Aalen. Subsequently, Aalen has been a predominantly Protestant town for centuries, with the exception of the years from 1628 until 1632 (see reformation section). Being an Imperial City, Aalen could govern its clerical matters on its own, so Clerics, organists and choir masters were direct subjects to the council, which thus exerted bishop-like power. There was even a proper hymn book for Aalen. After the transition to Württemberg, in 1803, Aalen became seat of a deanery, with the dean church being the Town Church (with the building constructed from 1765 to 1767 and existing until present). Georg Pfäfflin was dean in Aalen (1952–1967). He carried out the parish service with great commitment, built community centers and renovated churches. When he said goodbye to Aalen, the newspaper Schwäbische Post paid tribute to him: A distinguished personality in intellectual life is leaving Aalen. Another notable church in Aalen is St. John's Church, located on the cemetery and refurbished in 1561. As Aalen's population grew in the 20th century, more parishes were founded: St. Mark's parish with its church building of 1967 and St. Martin's parish with its church of 1974. In the borough of Unterrombach, Aalen had implemented the reformation as well, but the community remained a chapel-of-ease of Aalen. A proper church, the Christ Church, was erected in 1912 and a proper parish was established in 1947. In Fachsenfeld, the ruling family of Woellwarth resp. of Leinroden implemented the reformation. A parish church was built in 1591, however with an influx of Catholics in the 18th century, a Catholic majority was established. The other districts of present-day Aalen remained mostly catholic after the reformation, however Wasseralfingen established a Lutheran parish in 1891 and a church, St. Magdalene's Church, in 1893. In Unterkochen, after World War II, a parish was established and a church was built in 1960. All four parishes belong to the deanery of Aalen within the Evangelical-Lutheran Church in Württemberg. Furthermore, in Aalen there are Old Pietistic communities.
Aalen	Catholicism	Catholicism thumb\|upright\|Salvator's Church The few Catholics of today's central district were covered by the parish of Unterkochen until the 19th century, a situation which continued for some years even after completion of St. Mary's Church in 1868, which was constructed by Georg Morlok. However, in 1872 Aalen got its proper parish again, and in 1913, a second Catholic church, Salvator's Church, was completed, and in 1969 the Holy Cross Church was also finished. In 1963, a second parish was set up, and in 1972 it got a new Church, the new St. Mary's Church, which has been erected in place of the old St. Mary's church, which had been torn down in 1968. Another church of the second parish was St. Augustine's Church, which was completed in 1970. Finally, in 1976 and 1988, St. Elizabeth's Church and St. Thomas' Church were completed. Furthermore, in 1963, the St. Michael pastoral care office was built. Hofherrnweiler has its own Catholic church, St. Boniface's, since 1904. The villages of Dewangen, Ebnat, Hofen, Waldhausen and Wasseralfingen had remained Catholic after reformation, so old parishes and churches persist there. The Assumption of Mary Church in Dewangen has an early Gothic tower and a newly built nave (1875). Mary's Immaculate Conception Church in Ebnat was constructed in 1723; however the church was first mentioned in 1298. thumb\|upright\|St. Mary, Unterkochen Hofen's Saint George's Church is a fortified church, whose current nave was built between 1762 and 1775. Alongside the church, the Late Gothic St. Odile's Chapel is standing, whose entrance has the year 1462 engraved upon it. Foundations of prior buildings have been dated to the 11th and 13th century. St. Mary's Church of Unterkochen was first mentioned in 1248, and has served the Catholics of Aalen for a long time. Waldhausen's parish church of St. Nicholas was built between 1699 and 1716. Wasseralfingen at first was a chapel of ease for Hofen, but has since had its own chapel, St. Stephen, built. It was presumably built in 1353 and remodeled in 1832. In 1834, a proper parish was established, which built a new St. Stephen's Church. This new building utilized the Romanesque Revival architecture style and was built between 1881 and 1883, and has since remained the parish's landmark. Also, Fachsenfeld received its own church, named Sacred Heart in 1895. All Catholic parishes within Aalen are today incorporated into four pastoral care units within the Ostalb Deanery of the Diocese of Rottenburg-Stuttgart; however these units also comprise some parishes outside of Aalen. Pastoral Care Unit two comprises the parishes of Essingen, Dewangen and Fachsenfeld, unit four comprises Hofen and Wasseralfingen, unit five comprises both parishes of Aalen's centre and Hofherrnweiler, unit five comprises Waldhausen, Ebnat, Oberkochen and Unterkochen.
Aalen	Other Christian communities	Other Christian communities In addition to the two major religions within Aalen, there are also free churches and other communities, including the United Methodist Church, the Baptists, the Seventh-day Adventist Church and the New Apostolic Church.
Aalen	Other religions	Other religions Until the late 19th century, no Jews were documented within Aalen. In 1886 there were four Jews were living in Aalen, a number that rose to ten in 1900, fell to seven in 1905, and remained so until 1925. Upon the Nazis' rise to power in 1933, seven Jews, including two children, lived in Aalen. During the Kristallnacht in 1938, the vitrines of the three Jewish shops in the town were smashed and their proprietors imprisoned for several weeks. After their release, most Aalen Jews emigrated. The last Jews of Aalen, Fanny Kahn, was forcibly resettled to Oberdorf am Ipf, which had a large Jewish community. Today, a street of Aalen is named after her. The Jew Max Pfeffer returned from Brussels to Aalen in 1948 to continue his shop, but emigrated to Italy in 1967. In Aalen, there is an Islamic Ditib community, which maintains the D.I.T.I.B. Mosque of Aalen (Central Mosque) located at Ulmer Straße. The mosque's construction started on 30 August 2008. The Islamist Millî Görüş organisation maintains the Fatih Mosque, as well at Ulmer Straße.
Aalen	Mergings	Mergings The present-day make up of Aalen was created on 21 June 1975 by the unification of the cities of Aalen and Wasseralfingen, with the initial name of Aalen-Wasseralfingen. This annexation made Aalen's territory one third larger than its prior size. On 1 July 1975, the name Aalen was revived. Prior to this merger, the town of Aalen had already annexed the following municipalities: 1938: Unterrombach 1 January 1970: Waldhausen 1 July 1972: Ebnat 1 January 1973: Dewangen, Fachsenfeld (including the village of Hangendenbach, which was transferred from Abtsgmünd in 1954) and Unterkochen. The merging of Dewangen nearly doubled the territory of Aalen.
Aalen	Population's progression and structure	Population's progression and structure thumb\|upright=2\|Progression of Aalen's population During the Middle Ages and the early modern period, Aalen was just a small town with a few hundred inhabitants. The population grew slowly due to numerous wars, famines and epidemics. It was the beginning of the Industrial Revolution in the 19th century where Aalen's growth accelerated. Whereas in 1803, only 1,932 people inhabited the town, in 1905 it had already increased to 10,442. The number continued to rise and reached 15,890 in 1939. The influx of refugees and ethnic Germans from Germany's former eastern territories after World War II pushed the population to 31,814 in 1961. The merger with Wasseralfingen on 21 June 1975 added 14,597 persons and resulted in a total population of 65,165 people. On 30 June 2005, the population, which was officially determined by the Statistical Office of Baden-Württemberg, was 67,125. The following overview shows how the population figures of the borough were ascertained. Until 1823, the figures are mostly estimates, thereafter census results or official updates by the state statistical office. Starting in 1871, the figures were determined by non-uniform method of tabulation using extrapolation. Year Inhabitants 1634 2,000 1803 1,932 1823 2,486 3 December 1843 ¹ 3,319 3 December 1855 ¹ 3,720 3 December 1861 ¹ 4,272 1 December 1871 ¹ 5,552 1 December 1880 ¹ 6,659 1 December 1890 ¹ 7,155 1 December 1900 ¹ 9,058 1 December 1905 ¹ 10,442 Year Inhabitants 1 December 1910 ¹ 11,347 1 December 1916 ¹ 10,655 5 December 1917 ¹ 10,551 8 October 1919 ¹ 11,978 16 June 1925 ¹ 12,171 16 June 1933 ¹ 12,703 17 May 1939 ¹ 15,890 31 December 1945 19,552 29 October 1946 ¹ 21,941 13 September 1950 ¹ 25,375 25 September 1956 ¹ 29,360 Year Inhabitants 6 June 1961 ¹ 31,814 31 December 1965 34,373 27 May 1970 ¹ 37,366 31 December 1975 64,735 31 December 1980 63,030 31 December 1985 63,195 31 December 1990 64,781 1994 66,330 31 December 1995 66,234 31 December 2000 66,373 31 December 2005 67,066 31 December 2010 66,113 ¹ Census result On 31 December 2008, Aalen had precisely 66,058 inhabitants, of which 33,579 were female and 32,479 were male. The average age of Aalen's inhabitants rose from 40.5 years in 2000 to 42.4 in 2008. Within the borough, 6,312 foreigners resided, which is 9.56 percent. Of them, the largest percentage are from Turkey (38 percent of all foreigners), the second largest group are from Italy (13 percent), followed by Croatians (6 percent) and Serbs (5 percent). The number of married residents fell from 32,948 in 1996 to 31,357 in 2007, while the number of divorced residents rose in the same period from 2,625 to 3,859. The number of single residents slightly increased between 1996 and 2004 from 25,902 to 26,268 and fell slightly until 2007 to 26,147. The number of widowed residents fell from 5,036 in 1996 to 4,783 in 2007.
Aalen	Politics	Politics Aalen has arranged a municipal association with Essingen and Hüttlingen.
Aalen	Council	Council Since the local election of 25 May 2014, the town council consists of 51 representatives having a term of five years. The seats are distributed as follows on parties and groups (changes refer to the second last election of 2004): thumb\|350px\|Distribution of seats in the council since 2014 + Town council since 2014 Parliamentary group Election result ± Strength ± CDU 37,4 % +1,2 Pp. 19 Sitze −2 SPD 22,9 % −0,5 Pp. 11 Sitze –2 Alliance 90/The Greens 15,6 % –0,1 Pp. 8 Sitze –1 Free Voters Aalen 11,5 % +11,5 Pp. 6 Sitze +6 The Left/Pro Aalen 7,3 % –0,3 Pp. 4 Sitze +1 FDP/FW 3,4 % –10,4 Pp. 2 Sitze –5 Active Citizens (Aktive Bürger) 1,9 % −1,5 Pp. 1 Sitz 0
Aalen	Mayors	Mayors Since 1374, the mayor and the council maintain the government of the town. In the 16th century, the town had two, sometimes three mayors, and in 1552, the council had 13 members. Later, the head of the administration was reorganized several times. In the Württemberg era, the mayor's title was initially called Bürgermeister, then from 1819 it was Schultheiß, and since 1947 it is Oberbürgermeister. The mayor is elected for a term of eight years, and he is chairman and a voting member of the council. He has one deputy with the official title of Erster Bürgermeister ("first mayor") and one with the official title of Bürgermeister ("mayor"). thumb\|upright\|Flag of Aalen Heads of town in Aalen since 1802 1802–: Theodor Betzler 1812–1819: Ludwig Hölder 1819–1829: Theodor Betzler 1829: Palm 1829–1848: Philipp Ehmann 1848–1873: Gustav Oesterlein 1873–1900: Julius Bausch 1900–1902: Paul Maier 1903–1934: Friedrich Schwarz 1935–1945: Karl Schübel (NSDAP) 1945–1950: Otto Balluff 1950–1975: Karl Schübel (independent) 1976–2005: Ulrich Pfeifle (SPD) 2005–2013: Martin Gerlach (independent) 2013–2021: Thilo Rentschler (SPD) 2021–: Frederick Brütting (SPD)
Aalen	Coat of arms and flag	Coat of arms and flag thumb\|100px\|left\|Coat of arms of 1766 with eagle and eel Aalen's coat of arms depicts a black eagle with a red tongue on golden background, having a red shield on its breast with a bent silver eel on it. Eagle and eel were first acknowledged as Aalen's heraldic animals in the seal of 1385, with the eagle representing the town's imperial immediacy. After the territorial reform, it was bestowed again by the Administrative District of Stuttgart on 16 November 1976. The coat of arms' blazon reads: "In gold, the black imperial eagle, with a red breast shield applied to it, therein a bent silver eel" (In Gold der schwarze Reichsadler, belegt mit einem roten Brustschild, darin ein gekrümmter silberner Aal). Aalen's flag is striped in red and white and contains the coat of arms. The origin of the town's name is uncertain. Matthäus Merian (1593–1650) presumed the name to originate from its location at the Kocher river, where "frequently eels are caught", while Aal is German for "eel". Other explanations point to Aalen as the garrison of an ala during the Roman empire, respectively to an abridgement of the Roman name "Aquileia" as a potential name of the Roman fort, a name that nearby Heidenheim an der Brenz bore as well. Another interpretation points to a Celtic word aa meaning "water".
Aalen	Godparenthood	Godparenthood On the occasion of the 1980 Reichsstädter Tage, Aalen took over godparenthood for the more than 3000 ethnic Germans displaced from the Wischau linguistic enclave. 972 of them settled in Aalen in 1946. The "Wischau Linguistic Enclave Society" (Gemeinschaft Wischauer Sprachinsel) regularly organises commemorative meetings in Aalen. Their traditional costumes are stored in the Old Town Hall.
Aalen	Municipal finances	Municipal finances According to the 2007 municipal poll by the Baden-Württemberg chapter of the German Taxpayers Federation, municipal tax revenues totalling to 54,755 million Euros (2006) resp. 62,148 million Euros (2007) face the following debts: 2006 total: 109.9 million Euros debts (64.639 million of the finance department and 48.508 million of the municipal enterprises and fund assets) 2007 total: 114.5 million Euros debts (69.448 million of the finance department and 45.052 million of the municipal enterprises and fund assets)
Aalen	Twin towns – sister cities	Twin towns – sister cities Aalen is twinned with: Saint-Lô, France (1978) Christchurch, United Kingdom (1981) Tatabánya, Hungary (1987) Antakya, Turkey (1995); initiated by Ismail Demirtas, who emigrated in 1962 from Turkey to Aalen and was social adviser for foreign employees Cervia, Italy (2011) Vilankulo, Mozambique (2018) The "Twin Towns Society of Aalen" (Städtepartnerschaftsverein Aalen e. V.) promotes friendly relations between Aalen and its twin towns, which comprises mutual exchanges of sports and cultural clubs, schools and other civic institutions. On the occasion of the Reichsstädter Tage, from 11 until 13 September 2009 the first conference of twin towns was held.
Aalen	Culture and sights	Culture and sights
Aalen	Theatre	Theatre The Theater der Stadt Aalen theatre was founded in 1991 and stages 400 to 500 performances a year.
Aalen	Schubart Literary Award	Schubart Literary Award The town endowed the "Schubart Literary Award" (Schubart-Literaturpreis) in 1955 in tribute to Christian Friedrich Daniel Schubart, who spent his childhood and youth in Aalen. It is one of the earliest literary awards in Baden-Württemberg and is awarded biennially to German-language writers whose work coincide with Schubart's "liberal and enlightened reasoning". It is compensated with 12,000 Euros.
Aalen	Music	Music Founded in 1958, the "Music School of the Town of Aalen" today has about 1,500 students taught by 27 music instructors in 30 subjects. In 1977, a symphony orchestra was founded in Aalen, which today is called Aalener Sinfonieorchester, and consists mostly of instructors and students of the music school. It performs three public concerts annually: The "New Year's Concert" in January, the "Symphony Concert" in July and a "Christmas Concert" in December. Beyond that, music festivals regularly take place in Aalen, like the Aalen Jazzfest. The Aalen volunteer fire department has had a marching band since 1952, whose roots date back to 1883. In 1959, the band received its first glockenspiel from TV host Peter Frankenfeld on the occasion of a TV appearance. A famous German rapper, designer and singer, that goes under the name of Cro, was born in Aalen and lived his early years here.
Aalen	Arts	Arts The Kunstverein Aalen was founded in 1983 as a non-profit art association and today is located in the Old Town Hall. The institution with more than 400 members focuses on solo and group exhibitions by international artists. It belongs to the Arbeitsgemeinschaft Deutscher Kunstvereine (ADKV), an umbrella organization for non-profit art associations.
Aalen	Museums and memorial sites	Museums and memorial sites
Aalen	Museums	Museums thumb\|Aalen Limes Museum, exterior view In the central district of Aalen, there are two museums: The "Aalen Limes Museum" (Limesmuseum Aalen) is located at the place of the largest Roman cavalry fort north of the Alps until about 200 AD. It opened in 1964. The museum exhibits numerous objects from the Roman era. The ruins of the cavalry fort located beside the museum is open to museum visitors. Every other year, a Roman festival is held in the area of the museum (see below). In the Geological-Paleontological Museum located in the historic town hall, there are more than 1500 fossils from the Swabian Jura, including ammonites, ichthyosaurs and corals, displayed. In the Waldhausen district the Heimatstüble museum of local history has an exhibition on agriculture and rural living. In the Wasseralfingen district, there are two more museums: The Museum Wasseralfingen comprises a local history exhibition and an art gallery including works of Hermann Plock, Helmut Schuster and Sieger Köder. Also, the stove plate collection of the Schwäbische Hüttenwerke steel mill is exhibited, with artists, modellers and the production sequence of a cast plate from design to final product being presented.

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