Statements (127)
| Predicate | Object |
|---|---|
| gptkbp:instance_of |
gptkb:microprocessor
|
| gptkbp:application |
high-end computing
used in network routers used in video game consoles used in digital signal processing used in telecommunications equipment used in graphics workstations |
| gptkbp:architecture |
gptkb:MIPS_architecture
RISC |
| gptkbp:bus_connections |
MIPS I/ O bus
|
| gptkbp:cache_size |
up to 1 MB
32 bytes write-back cache set-associative |
| gptkbp:clock_speed |
up to 400 MHz
|
| gptkbp:compatibility |
gptkb:Linux
gptkb:IRIX gptkb:Windows_NT backward compatible with MIPS III various UNIX-like operating systems |
| gptkbp:competitors |
competed with Intel and AMD processors
competes with Intel and AMD processors. |
| gptkbp:data_bus_width |
64-bit
|
| gptkbp:debugging_support |
hardware debugging support
hardware debugging features |
| gptkbp:design_philosophy |
simplicity and performance
|
| gptkbp:design_purpose |
energy efficiency
high performance and efficiency low latency scalability high throughput |
| gptkbp:designed_by |
gptkb:MIPS_Computer_Systems
|
| gptkbp:development |
gptkb:MIPSpro_Compiler
1990s early 1990s developed for high-end computing applications MIPS engineers |
| gptkbp:development_tools |
gptkb:MIPSpro_Compiler
MIPS Assembly Language debugging tools |
| gptkbp:die_size |
varies by model
|
| gptkbp:end_of_life |
2000s
|
| gptkbp:features |
out-of-order execution
superscalar architecture integrated floating-point unit multiple instruction issue multiple pipelines |
| gptkbp:has_units |
integrated
IEEE 754 compliant high for scientific applications |
| gptkbp:historical_impact |
influenced RISC design principles
|
| https://www.w3.org/2000/01/rdf-schema#label |
MIPS R10000
|
| gptkbp:instruction_set |
gptkb:MIPS_IV
MIPS instruction set RISC out-of-order execution 5 stages superscalar 5-stage pipeline up to 4 instructions per cycle dual-issue decoding |
| gptkbp:is_integrated_with |
integrated into various systems
|
| gptkbp:legacy |
used in academic research
used in commercial products contributed to RISC architecture development influenced later MIPS designs paved the way for MIPS64 |
| gptkbp:manufacturer |
gptkb:Silicon_Graphics,_Inc.
various semiconductor companies |
| gptkbp:market_launch |
gptkb:1996
|
| gptkbp:market_segment |
embedded systems
high-performance computing workstation and server markets |
| gptkbp:market_share |
varied by year
|
| gptkbp:memory_type |
up to 8 GB
supports ECC memory harvard architecture |
| gptkbp:notable_features |
superscalar execution
|
| gptkbp:notable_users |
gptkb:Nintendo
gptkb:Silicon_Graphics gptkb:Cisco_Systems gptkb:Motorola gptkb:Panasonic gptkb:Sony gptkb:Hitachi gptkb:Toshiba gptkb:NEC gptkb:Sharp NASA, universities |
| gptkbp:number_of_cores |
single-core
|
| gptkbp:packaging |
gptkb:FC-PGA
|
| gptkbp:performance |
gptkb:SPEC_benchmarks
gptkb:SPECfp gptkb:SPECint Whetstone high performance for its time high performance for scientific computing Dhrystone low memory latency |
| gptkbp:power_consumption |
varies by model
|
| gptkbp:predecessor |
gptkb:MIPS_R8000
|
| gptkbp:processor |
gptkb:MIPS_family
|
| gptkbp:production_years |
early 2000s
|
| gptkbp:provides_support_for |
various compilers available
|
| gptkbp:ram |
yes
|
| gptkbp:registration |
32 general-purpose registers
32 floating-point registers |
| gptkbp:release_date |
gptkb:1996
|
| gptkbp:released |
gptkb:1996
|
| gptkbp:released_in |
gptkb:1996
|
| gptkbp:socket_type |
R10000 socket
|
| gptkbp:successor |
gptkb:MIPS_R12000
gptkb:MIPS_R14000 |
| gptkbp:supports |
vector processing
multithreading floating-point operations |
| gptkbp:technology |
0.35 µm
CMOS |
| gptkbp:thermal_design_power |
varies by model
|
| gptkbp:used_in |
gptkb:servers
gptkb:SGI_workstations embedded systems workstations |
| gptkbp:bfsParent |
gptkb:MIPS32
gptkb:MIPS_Technologies gptkb:MIPS_Processors |
| gptkbp:bfsLayer |
6
|