VLIW Processors

GPTKB entity

Statements (37)
Predicate Object
gptkbp:instanceOf Computer Architecture
gptkbp:advantage Binary Compatibility Issues
Code Size Increase
Compiler Complexity
High Instruction-Level Parallelism
Simpler Hardware
gptkbp:compilerRole Instruction Scheduling
Dependency Analysis
gptkbp:developedBy gptkb:Josh_Fisher
gptkbp:differenceFromSuperscalar Static Scheduling vs Dynamic Scheduling
gptkbp:example gptkb:Intel_Itanium
gptkb:Transmeta_Crusoe
Elbrus 2000
Texas Instruments TMS320C6x
gptkbp:feature Multiple Operations per Instruction
Parallel Execution Units
Static Instruction Scheduling
gptkbp:fullName Very Long Instruction Word Processors
https://www.w3.org/2000/01/rdf-schema#label VLIW Processors
gptkbp:instructionWordLength Very Long
gptkbp:introducedIn 1980s
gptkbp:marketedAs gptkb:Hewlett-Packard
gptkb:Texas_Instruments
gptkb:Intel
gptkbp:parallelismType Instruction-Level Parallelism
gptkbp:relatedTo gptkb:Superscalar_Processors
EPIC Architecture
RISC Architecture
gptkbp:target High-Level Language Compilers
gptkbp:usedIn gptkb:Scientific_Computing
gptkb:Digital_Signal_Processing
Embedded Systems
High-Performance Computing
Media Processing
Graphics Processing
gptkbp:bfsParent gptkb:Instruction_Level_Parallelism
gptkbp:bfsLayer 8