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Ada Lovelace, also referred to simply as Lovelace, [1] is a graphics processing unit (GPU) microarchitecture developed by Nvidia as the successor to the Ampere architecture, officially announced on September 20, 2022. It is named after the English mathematician Ada Lovelace, [2] one of the first computer programmers.
Ampere is the codename for a graphics processing unit (GPU) microarchitecture developed by Nvidia as the successor to both the Volta and Turing architectures. It was officially announced on May 14, 2020, and is named after French mathematician and physicist André-Marie Ampère .
Ada Lovelace (1815–1852) Mathematician and writer English: Ada Lovelace: 2022 [7] James Clerk Maxwell (1831–1879) Mathematician and scientist Scottish: Maxwell: 2014 [8] Blaise Pascal (1623–1662) Mathematician, physicist, inventor, philosopher, and Catholic writer French: Pascal: 2016 [9] William Rankine (1820–1872) Mechanical engineer ...
The Nvidia Hopper H100 GPU is implemented using the TSMC N4 process with 80 billion transistors. It consists of up to 144 streaming multiprocessors. [1] Due to the increased memory bandwidth provided by the SXM5 socket, the Nvidia Hopper H100 offers better performance when used in an SXM5 configuration than in the typical PCIe socket.
Blackwell is a graphics processing unit (GPU) microarchitecture developed by Nvidia as the successor to the Hopper and Ada Lovelace microarchitectures.. Named after statistician and mathematician David Blackwell, the name of the Blackwell architecture was leaked in 2022 with the B40 and B100 accelerators being confirmed in October 2023 with an official Nvidia roadmap shown during an investors ...
The award is named after Countess Ada Lovelace, an English mathematician, scientist, and writer. Lovelace was the daughter of Lord Byron . She worked with computer pioneer Charles Babbage on the proposed mechanical general-purpose computer – the Analytical Engine , [ 1 ] in 1842 and is often described as the world's first computer programmer .
For alternating currents and point charges, the different representations of Ampere's force law are not equivalent. Maxwell was familiar with Weber's electrodynamics and mentioned it positively. [11] Nevertheless, he decided to build his theory on the Biot-Savart law by generalizing it to cases where the conductor loops contain discontinuities.
In magnetostatics, the force of attraction or repulsion between two current-carrying wires (see first figure below) is often called Ampère's force law. The physical origin of this force is that each wire generates a magnetic field , following the Biot–Savart law , and the other wire experiences a magnetic force as a consequence, following ...