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{{title|RISC-V}}{{risc-v isa main}} | {{title|RISC-V}}{{risc-v isa main}} | ||
− | '''RISC-V''' (pronounced ''risk-five'') is a free and open [[instruction set architecture]] that is specifically designed to enable configurability, modularity, and extensibility. RISC-V is not designed to replace prominent ISAs such as [[x86]] and [[ARM]], but rather to provide a foundation for emerging classes of [[processors]] and [[accelerators]] that require a base ISA on top of which additional functionality can be added. | + | '''RISC-V''' (pronounced ''risk-five'') is a free and open [[instruction set architecture]] standardized by the {{risc-v|Foundation|RISC-V Foundation}} that is specifically designed to enable configurability, modularity, and extensibility. RISC-V is not designed to replace prominent ISAs such as [[x86]] and [[ARM]], but rather to provide a foundation for emerging classes of [[processors]] and [[accelerators]] that require a base ISA on top of which additional functionality can be added. |
+ | |||
+ | == Overview == | ||
+ | RISC-V is a free and open ISA; no license is needed to be obtained and the use of the ISA royalty-free for anyone. RISC-V is designed to provide a foundation or a base architecture for companies and researchers who need it in order to be able to augment their own technology (e.g., customer [[accelerators]], fixed function hardware, and other domain-specific additions) on top of it. RISC-V provides a base architecture (offered in 3 flavors of 32/64/128 bit) consisting of less than 50 instructions which is capable of running a full software stack including a full-fledged operating system. The core instructions are frozen and are guaranteed to never change. In addition to the core instructions, RISC-V provides a number of optional standard extensions that can be implemented or omitted depending on the designer goals. Other than the standard extensions RISC-V also reserves opcodes to be custom tailored by chip designers for their own applications. | ||
+ | |||
+ | == Standardization == | ||
+ | {{main|risc-v/foundation|l1=RISC-V Foundation}} | ||
+ | Standardization is done by the {{risc-v|Foundation|RISC-V Foundation}} which was established specifically for this purpose as well as to promote and protect the ISA. The foundation can also elevate non-standard (e.g., [[domain-specific extension|DSEs]]) to {{risc-v|standard extensions}} if determined robust and stable enough. | ||
+ | |||
+ | == Architecture == | ||
+ | RISC-V is designed as a ''Base+Extension'' ISA whereby the architecture is broken down into a very minimal base architecture that is required in order to be able to get a full software stack including a full-fledged operating system and additional standard {{risc-v|extensions}} can be implemented when additional functionality is desired. | ||
+ | |||
+ | There are three RISC-V base instruction called {{risc-v|RV32I}}, {{risc-v|RV64I}}, and {{risc-v|RV128I}}. Those three variations only operate on integers and represent a {{arch|32}}, {{arch|64}}, and {{arch|128}} address space and [[register]] widths (i.e., word size). All RISC-V implementations must include the base {{risc-v|RV32I}} instructions. The two additional variations simply expand the RV32I register width and add a handful of additional data transfer instructions for working with wider words. | ||
+ | |||
[[category:instruction set architectures]] | [[category:instruction set architectures]] | ||
[[category:risc-v]] | [[category:risc-v]] |
Latest revision as of 11:00, 25 December 2017
Instruction Set Architecture
- Foundation
- Non-Standard Extensions
- Addressing Modes
- Registers
- Assembly
- Interrupts
- Microarchitectures
RISC-V (pronounced risk-five) is a free and open instruction set architecture standardized by the RISC-V Foundation that is specifically designed to enable configurability, modularity, and extensibility. RISC-V is not designed to replace prominent ISAs such as x86 and ARM, but rather to provide a foundation for emerging classes of processors and accelerators that require a base ISA on top of which additional functionality can be added.
Overview[edit]
RISC-V is a free and open ISA; no license is needed to be obtained and the use of the ISA royalty-free for anyone. RISC-V is designed to provide a foundation or a base architecture for companies and researchers who need it in order to be able to augment their own technology (e.g., customer accelerators, fixed function hardware, and other domain-specific additions) on top of it. RISC-V provides a base architecture (offered in 3 flavors of 32/64/128 bit) consisting of less than 50 instructions which is capable of running a full software stack including a full-fledged operating system. The core instructions are frozen and are guaranteed to never change. In addition to the core instructions, RISC-V provides a number of optional standard extensions that can be implemented or omitted depending on the designer goals. Other than the standard extensions RISC-V also reserves opcodes to be custom tailored by chip designers for their own applications.
Standardization[edit]
- Main article: RISC-V Foundation
Standardization is done by the RISC-V Foundation which was established specifically for this purpose as well as to promote and protect the ISA. The foundation can also elevate non-standard (e.g., DSEs) to standard extensions if determined robust and stable enough.
Architecture[edit]
RISC-V is designed as a Base+Extension ISA whereby the architecture is broken down into a very minimal base architecture that is required in order to be able to get a full software stack including a full-fledged operating system and additional standard extensions can be implemented when additional functionality is desired.
There are three RISC-V base instruction called RV32I, RV64I, and RV128I. Those three variations only operate on integers and represent a 32-bit, 64-bit, and 128-bit address space and register widths (i.e., word size). All RISC-V implementations must include the base RV32I instructions. The two additional variations simply expand the RV32I register width and add a handful of additional data transfer instructions for working with wider words.