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* High-speed financial transactions<ref>{{Cite web |last=Mann |first=Tobias |date=2023-03-08 |title=While Intel XPUs are delayed, here's some more FPGAs to tide you over |url=https://www.theregister.com/2023/03/08/intel_fpga_agilex/ |website=The Register}}</ref><ref>{{Cite conference |url=https://ieeexplore.ieee.org/document/6044837 |title=High Frequency Trading Acceleration Using FPGAs |last1=Leber |first1=Christian |last2=Geib |first2=Benjamin |last3=Litz |first3=Heiner |doi=10.1109/FPL.2011.64 |publisher=IEEE |date=September 2011 |conference=International Conference on Field Programmable Logic and Applications}}</ref>
* [[Retrocomputing]] (e.g. the MARS and [[MiSTer]] FPGA projects)<ref>{{cite web |url=https://www.retrorgb.com/the-diy-mister-handheld.html |title=The DIY MiSTer Handheld |access-date=}}</ref>
* Large scale integrated [[digital differential analyzer]]s, a form of an [[analog computer]] based on digital computing elements<ref>[https://people.ece.cornell.edu/land/courses/ece5760/DDA/index.htm DDA on FPGA - A modern Analog Computer]</ref
=== Usage by United States military ===
FPGAs play a crucial role in modern military communications, especially in systems like the [[Joint Tactical Radio System]] (JTRS) and in devices from companies such as [[Thales Group|Thales]] and [[Harris Corporation]]. Their flexibility and programmability make them ideal for military communications, offering customizable and secure signal processing. In the JTRS, used by the US military, FPGAs provide adaptability and real-time processing, crucial for meeting various communication standards and encryption methods
==== L3Harris ====
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