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Though HiSilicon has a history of designing Arm processors. The TaiShan v110 core is HiSilicons' first custom homegrown high-performance [[ARM]] core and SoC design. The chip, which incorporates multiple compute dies and an I/O is a multi-chip package, is fabricated on [[TSMC]]'s [[7 nm|7-nanometers HPC process]] and integrates up to 64 cores and up to 64 MiB of [[last level cache]]. | Though HiSilicon has a history of designing Arm processors. The TaiShan v110 core is HiSilicons' first custom homegrown high-performance [[ARM]] core and SoC design. The chip, which incorporates multiple compute dies and an I/O is a multi-chip package, is fabricated on [[TSMC]]'s [[7 nm|7-nanometers HPC process]] and integrates up to 64 cores and up to 64 MiB of [[last level cache]]. | ||
− | The SoC also incorporates a number of [[hardware accelerators]]. There is a crypto engine that supports AES, DES/3DES, MD5, SHA1, SHA2, HMAC, CMAC with throughputs of up to 100 Gbit/s. Additionally, there is also a compression engine supporting GZIP, LZS, LZ4 with compression throughputs of up to 40 Gbit/s and decompression of | + | The SoC also incorporates a number of [[hardware accelerators]]. There is a crypto engine that supports AES, DES/3DES, MD5, SHA1, SHA2, HMAC, CMAC with throughputs of up to 100 Gbit/s. Additionally, there is also a compression engine supporting GZIP, LZS, LZ4 with compression throughputs of up to 40 Gbit/s and decompression of p to 100 Gbit/s. |
Marketed as the Kunpeng 920, this SoC supports up to 4-way multiprocessing support through HiSilicon's Hydra interface. In order to keep the cores fed, eight [[DDR4]] [[memory channels]] are incorporated per socket. Additionally, designed to facilitate an easy [[accelerator]] platform, there are 40 PCIe Gen 4 lanes provided per socket with [[CCIX]] support, enabling cache coherency. | Marketed as the Kunpeng 920, this SoC supports up to 4-way multiprocessing support through HiSilicon's Hydra interface. In order to keep the cores fed, eight [[DDR4]] [[memory channels]] are incorporated per socket. Additionally, designed to facilitate an easy [[accelerator]] platform, there are 40 PCIe Gen 4 lanes provided per socket with [[CCIX]] support, enabling cache coherency. |
Facts about "TaiShan v110 - Microarchitectures - HiSilicon"
codename | TaiShan v110 + |
core count | 32 +, 48 + and 64 + |
designer | HiSilicon + |
first launched | 2019 + |
full page name | hisilicon/microarchitectures/taishan v110 + |
instance of | microarchitecture + |
instruction set architecture | ARMv8.2-A + |
manufacturer | TSMC + |
microarchitecture type | CPU + |
name | TaiShan v110 + |
process | 7 nm (0.007 μm, 7.0e-6 mm) + |