Unicore

Script error: No such module "For". Template:Infobox CPU architecture Unicore is a computer instruction set architecture designed by the Microprocessor Research and Development Center (MPRC) of Peking University in the PRC. The computer built on this architecture is called the Unity-863.^[1] The CPU is integrated into a fully functional SoC to make a PC-like system.^[2]

The processor is very similar to the ARM architecture, but uses a different instruction set.^[3]Template:Better source needed

It is supported by the Linux kernel as of version 2.6.39.^[4] Support will be removed in Linux kernel version 5.9 as nobody seems to maintain it and the code is falling behind the rest of the kernel code and compiler requirements.^[5]

Instruction set

The instructions are almost identical to the standard ARM formats, except that conditional execution has been removed, and the bits reassigned to expand all the register specifiers to 5 bits.^[6]^[7] Likewise, the immediate format is 9 bits rotated by a 5-bit amount (rather than 8 bit rotated by 4), the load/store offset sizes are 14 bits for byte/word and 10 bits for signed byte or half-word. Conditional moves are provided by encoding the condition in the (unused by ARM) second source register field Rn for MOV and MVN instructions.

Unicore32 instruction set overview^[8]
Template:Verth	Template:Verth	Template:Verth	Template:Verth	Template:Verth	Template:Verth	Template:Verth	Template:Verth	Template:Verth	Template:Verth	Template:Verth	Template:Verth	Template:Verth	Template:Verth	Template:Verth	Template:Verth	Description
0	0	0	opcode				S	Rn	Rd	shift	0	Sh		0	Rm	ALU operation, Rd = Rn op Rm shift #shift
0	0	0	opcode				S	Rn	Rd	Rs	0	Sh		1	Rm	ALU operation, Rd = Rn op Rm shift Rs
0	0	1	opcode				S	Rn	Rd	shift	imm9					ALU operation, Rd = Rn op #imm9 ROTL #shift
0	1	0	P	U	B	W	L	Rn	Rd	shift	0	Sh		0	Rm	Load/store Rd to address Rn ± Rm shift #shift
0	1	1	P	U	B	W	L	Rn	Rd	offset14						Load/store Rd to address Rn ± offset14
1	0	0	P	U	S	W	L	Rn	Bitmap high		0	0	H	Bitmap low		Load/store multiple registers
1	0	1	cond				L	offset24								Branch (and link) if condition true
1	1	0														Coprocessor (FPU) instructions
1	1	1	1	1	1	1	1	Trap number								Software interrupt

0	0	0	0	0	0	A	S	Rn	Rd	Rs	1	0	0	1	Rm	Multiply, Rd = Rm * Rs (+ Rn)
0	0	0	1	0	0	0	L	11111	11111	00000	1	0	0	1	Rm	Branch and exchange (BX, BLX)
0	1	0	P	U	0	W	L	Rn	Rd	00000	1	S	H	1	Rm	Load/store Rd to address Rn ± Rm (16-bit)
0	1	0	P	U	1	W	L	Rn	Rd	imm_hi	1	S	H	1	imm_lo	Load/store Rd to address Rn ± #imm10 (16-bit)

The meaning of various flag bits (such as S=1 enables setting the condition codes) is identical to the ARM instruction set. The load/store multiple instruction can only access half of the register set, depending on the H bit. If H=0, the 16 bits indicate R0–R15; if H=1, R16–R31.

References

↑ Script error: No such module "citation/CS1".
↑ Script error: No such module "citation/CS1".
↑ Template:Cite mailing list
↑ Script error: No such module "citation/CS1".
↑ Script error: No such module "citation/CS1".
↑ Script error: No such module "citation/CS1".
↑ Unicore processor simulator source code. Instruction formats are in decode.c, disassembly in interpret.c, and emulation in instEx.c.
↑ QEMU Unicore32 emulator source code

Template:RISC-based processor architectures Template:CPU technologies

Template:Compu-eng-stub

[1] Script error: No such module "citation/CS1".

[2] Script error: No such module "citation/CS1".

[3] Template:Cite mailing list

[4] Script error: No such module "citation/CS1".

[5] Script error: No such module "citation/CS1".

[6] Script error: No such module "citation/CS1".

[7] Unicore processor simulator source code. Instruction formats are in decode.c, disassembly in interpret.c, and emulation in instEx.c.

[8] QEMU Unicore32 emulator source code

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[5]

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[7]

[8]

Unicore

Instruction set

References

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