RISC architectures

GPTKB entity

Statements (50)
Predicate Object
gptkbp:instanceOf gptkb:architecture
gptkbp:advantage energy efficiency
scalability
potentially larger code size
more instructions for complex operations
simplicity of hardware implementation
gptkbp:contrastsWith CISC architectures
gptkbp:emphasizes load/store architecture
fixed instruction length
pipelining
high performance per clock
gptkbp:feature large number of registers
simple addressing modes
single-cycle execution for most instructions
few instruction formats
gptkbp:focusesOn simplified instruction set
gptkbp:hasCommercialImplementation gptkb:ARM
gptkb:PowerPC
gptkb:SPARC
gptkb:MIPS
https://www.w3.org/2000/01/rdf-schema#label RISC architectures
gptkbp:influenced modern microprocessor design
gptkbp:influencedBy gptkb:Von_Neumann_architecture
gptkb:Harvard_architecture
gptkbp:openSource gptkb:RISC-V
gptkbp:originatedIn late 1970s
gptkbp:popularizedBy gptkb:Berkeley_RISC_project
gptkb:IBM_801_project
gptkb:Stanford_MIPS_project
gptkbp:relatedTo VLIW architectures
EPIC architectures
gptkbp:standardizedBy gptkb:RISC-V_Foundation
gptkbp:standsFor Reduced Instruction Set Computer architectures
gptkbp:usedIn gptkb:ARM_architecture
gptkb:SPARC_architecture
gptkb:PowerPC_architecture
gptkb:RISC-V_architecture
IoT devices
MIPS architecture
embedded systems
supercomputers
mobile devices
servers
network devices
game consoles
gptkbp:bfsParent gptkb:Floating_Point_Registers_(FPRs)
gptkb:split_TLB
gptkb:CHERI_project
gptkb:Stanford_MIPS
gptkbp:bfsLayer 8