Engineering:CompactRISC
CompactRISC is a family of instruction set architectures from National Semiconductor. The architectures are designed according to reduced instruction set computing principles, and are mainly used in microcontrollers.[1] The subarchitectures of this family are the 16-bit CR16 and CR16C and the 32-bit CRX.[2]
Architectures
Features of CR16 family: compact implementations (less than 1 mm2 with 250 nm), addressing of 2 MB (221), frequencies up to 66 MHz, hardware multiplier for 16-bit integers.[1]
It has complex instructions such as bit manipulation, saving/restoring and push/pop of several registers with single command.[1]
CR16 has 16 general purpose registers of 16 bits, and address registers of 21 bits wide. There are 8 special registers: program counter, interrupt stack pointer ISP, interrupt vector address register INTBASE, status register PSR, configuration register and 3 debug registers. Status register implements flags: C, T, L, F, Z, N, E, P, I.[1]
Instructions are encoded in two-address form in several formats, usually they have 16-bit encoding, but there are two formats for medium immediate instructions with length of 32-bit. Typical opcode length is 4 bits (bits 9–12 of most encoding types. Basic encoding formats are:
- Register-to-register,
- Short 5-bit immediate value to register,
- Medium immediate of 16-bit value to register (32-bit encoding),
- Load/store relative with short 5-bit displacement (2-bit opcode),
- Load/store relative with medium 18-bit displacement (32-bit encoding, 2-bit opcode).[1]
CR16C comes with a different opcode encoding format, has 23–32-bit-wide address registers and provides two 32-bit general purpose registers.[3]
CR16 implements traps and interrupts. Implementations of CR16 has three-stage pipeline: fetch, decode, execute.[1]
CR16 products
CR16 was used in several National Semiconductor microcontrollers, and since 2001 integrated microcontrollers were available having built-in flash memory.[4][5] Since 2007 CR16-based IP was available to licensing[6]
References
- ↑ 1.0 1.1 1.2 1.3 1.4 1.5 Brunvand, Erik. "National Semiconductor CR16, Compact RISC Processor, Baseline ISA and Beyond". CS/EE 3710. University of Utah. http://www.eng.utah.edu/~cs3710/slides/cr16x2.pdf. Retrieved 3 December 2016.
- ↑ von Hagen, William (2011). The Definitive Guide to GCC. Apress. p. 422. ISBN 9781430202196. https://books.google.com/books?id=wQ6r3UTivJgC&q=national+cr16+crx&pg=PA422.
- ↑ "CR16C Programmer's Reference Manual". https://dump.bitcheese.net/files/zujukix/Prog_16C.pdf.
- ↑ Graham, Jeanne (2001-02-22). "National Semi's 16-bit MCU integrates flash, analog". EETimes. http://www.eetimes.com/document.asp?doc_id=1128340. Retrieved 3 December 2016.
- ↑ "National's 16-bit RISC MCU touts high-endurance flash". EETimes. 2001-03-13. http://www.eetimes.com/document.asp?doc_id=1290094. Retrieved 3 December 2016.
- ↑ Hammerschmidt, Christoph (2007-02-21). "NatSemi taps IPextreme for embedded IP resale". EETimes. http://www.eetimes.com/document.asp?doc_id=1240853. Retrieved 3 December 2016.
External links
- National Semiconductor Embedded Microcontrollers (CR16 and COP8)
- CompactRISC Core Architecture page on National Semiconductor website (archived copy from 2007)
- CR16B Programmer’s Reference Manual, National Semiconductor, 1997
- GCC CR16 port
Original source: https://en.wikipedia.org/wiki/CompactRISC.
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