FeiTeng | |
Developer | Phytium |
Manufacturer | TSMC |
Type | Microprocessors |
Introduction | 2016 (announced) 2017 (launch) |
ISA | ARM |
µarch | Xiaomi, Mars I, Mars II, Earth |
Word size | 64 bit 8 octets
16 nibbles |
Process | 28 nm 0.028 μm , 16 nm2.8e-5 mm 0.016 μm
1.6e-5 mm |
Technology | CMOS |
Succession | |
← | |
YinHe FeiTeng |
FeiTeng (FT; 飞腾) is a series of ARM microprocessors designed and introduced by Phytium Technologies for the desktop and server markets.
Contents
Overview
This section is empty; you can help add the missing info by editing this page. |
FT-1500A
- Main articles: Earth SoC Microarchitecture and Xiaomi Core Microarchitecture
FT-1500A is a series of 64-bit ARMv8-based multi-core system on chips developed by Phytium and introduced in 2016. Those SoCs are designed for workstations, servers, and infrastructure related applications. The 1500A series are based on the Earth SoC microarchitecture and Xiaomi FTC660 core, a custom fully-compliant ARMv8 implementation. The exact number of cores varies by model.
FT-2000
- Main articles: Mars I SoC Microarchitecture and Xiaomi Core Microarchitecture
FT-2000 is a series of 64-bit ARMv8-based multi-core system on chips announced in 2016 and introduced in 2017. Those SoCs are designed for servers and infrastructure related applications and are based on the Mars I SoC microarchitecture and Xiaomi core.
FT-2000A
- Main articles: Mars II SoC Microarchitecture and Xiaomi Core Microarchitecture
This section is empty; you can help add the missing info by editing this page. |
designer | Phytium + |
first announced | 2016 + |
first launched | 2017 + |
full page name | phytium/feiteng + |
instance of | microprocessor family + |
instruction set architecture | ARM + |
main designer | Phytium + |
manufacturer | TSMC + |
microarchitecture | Xiaomi +, Mars I +, Mars II + and Earth + |
name | FeiTeng + |
package | FCBGA-1944 + and FCBGA-1150 + |
process | 28 nm (0.028 μm, 2.8e-5 mm) + and 16 nm (0.016 μm, 1.6e-5 mm) + |
technology | CMOS + |
word size | 64 bit (8 octets, 16 nibbles) + |