# Number of Floating point registers in MIPS

\$f0, \$f1 and so on are floating point registers in MIPS. There are 32 of them. How about the machines with 32 registers only? Where are the other registers like \$s0 and \$t0?

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Try to rephrase your question, its unclear what you are asking. –  S.C. Madsen Sep 18 '12 at 19:24

MIPS architecture has different set of registers:

• General purpose registers (numbered 0 to 31)
• Floating point registers (16 double precision registers)
• Some special registers (program counter PC (not architecturally visible), LO and HI registers to hold result of multiplication and division)

General purpose registers also have synonyms:

• \$1 is named \$at
• \$2-\$3 are named \$v0 and \$v1
• \$4-\$7 are named \$a0-\$a3
• \$8-\$15 are named \$t0-\$t7
• \$16-\$23 are named \$s0-\$s7
• \$24-\$25 are named \$t0 and \$t1
• \$26-\$27 are named \$k0, \$k1
• \$28 is \$gp (global pointer)
• \$29 is \$sp (stack pointer)
• \$30 is \$fp (frame pointer, not to be confused with floating point register)
• \$31 is \$ra (return address)

Also note that \$0 is hardwired to constant zero

You have to see in each instruction which register set can be used (e.g. floating point operations will use floating point register set).

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Just a nitpick: the program counter is not an architecturally visible register in MIPS. –  markgz Sep 19 '12 at 20:11
@markgz: Right! Edited answer to reflect it. –  gusbro Sep 20 '12 at 14:48