CompactRISC

CompactRISC is a family of processor architectures from National Semiconductor. The architectures are designed according to RISC 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]

CR16 architectures

Features of CR16 family: compact implementations (less than 1 mm2 with 250nm), addressing of 2 MB (2^21), 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]

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-it flash memory.^[3]^[4] Since 2007 CR16-based IP was available to licensing^[5]

References

1 2 3 4 5 6 Brunvand, Erik. "National Semiconductor CR16, Compact RISC Processor, Baseline ISA and Beyond" (PDF). CS/EE 3710. University of Utah. Retrieved 3 December 2016.
↑ von Hagen, William (2011). The Definitive Guide to GCC. Apress. p. 422. ISBN 9781430202196.
↑ Graham, Jeanne (2001-02-22). "National Semi's 16-bit MCU integrates flash, analog". EETimes. Retrieved 3 December 2016.
↑ "National's 16-bit RISC MCU touts high-endurance flash". EETimes. 2001-03-13. Retrieved 3 December 2016.
↑ Hammerschmidt, Christoph (2007-02-21). "NatSemi taps IPextreme for embedded IP resale". EETimes. 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

Microcontrollers

Main

Architectures

Families

4-bit	TLCS-47 TMS 1000 S1C6x μCOM-4 MARC4

8-bit	AVR PIC10/12/16/17/18 COP8 MCS-48/51 Z8 eZ80 68HC08/11 H8 TLCS-870 XC800 740

16-bit	C166 CR16/CR16C H8S MSP430 PIC24/dsPIC R8C RL78 TLCS-900 XC 2000 XE166 68HC12/16

32-bit	Am29000 ARM AVR32 ColdFire CRX FR FR-V H8SX M32R MPC5xx PIC32 PowerPC Propeller TLCS-900 TriCore V850

64-bit	ARM64 PowerPC64 MIPS64

Interfaces

Programming	In-circuit serial programming (ICSP) In-system programming (ISP) Program and Debug Interface (PDI) High-voltage serial programming (HVSP) High voltage parallel programming (HVPP) Bootloader ROM aWire

Debugging	debugWIRE Joint Test Action Group (JTAG) In-circuit debugging (ICD) In-circuit emulator (ICE) In-target probe (ITP)

Simulators

gpsim

Lists

Common microcontrollers
By manufacturer
- Freescale
- Intel