Difference between revisions of "Paired single"

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m (Made psq_l variants inside of psq_l. Added psq_st and variants)
m (Added single param ops)
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To load and store Paired-singles, one must use the psq_l and psq_st instructions respectively, or one of their variants.
 
To load and store Paired-singles, one must use the psq_l and psq_st instructions respectively, or one of their variants.
 
=== psq_l ===
 
=== psq_l ===
  psq_l frD, d(rA), W, I
+
  psq_l     frD, d(rA), W, I
 
This instruction dequantizes values from the memory address in '''d'''+('''rA'''|0) and puts them into PS0 and PS1 in '''frD'''. If '''W''' is 1, however, it only dequantizes one number, and places that into PS0. PS1 is loaded with 1.0 always when '''W''' is 1. '''I''' specifies the GQR to use for dequantization parameters. The two numbers read from the memory are directly after each other, regardless of size (for example, if the GQR specified to load as a u16, you would have '''d'''+('''rA'''|0) point to a two-element array of u16s)
 
This instruction dequantizes values from the memory address in '''d'''+('''rA'''|0) and puts them into PS0 and PS1 in '''frD'''. If '''W''' is 1, however, it only dequantizes one number, and places that into PS0. PS1 is loaded with 1.0 always when '''W''' is 1. '''I''' specifies the GQR to use for dequantization parameters. The two numbers read from the memory are directly after each other, regardless of size (for example, if the GQR specified to load as a u16, you would have '''d'''+('''rA'''|0) point to a two-element array of u16s)
 
===== psq_lx =====
 
===== psq_lx =====
  psq_lx frD, rA, rB, W, I
+
  psq_lx   frD, rA, rB, W, I
 
This instruction acts exactly like psq_l, except instead of ('''rA''') being offset by '''d''', it is offset by ('''rB''').
 
This instruction acts exactly like psq_l, except instead of ('''rA''') being offset by '''d''', it is offset by ('''rB''').
 
===== psq_lu =====
 
===== psq_lu =====
  psq_lu frD, d(rA), W, I
+
  psq_lu   frD, d(rA), W, I
 
This instruction acts exactly like psq_l, except '''rA''' cannot be 0, and '''d'''+('''rA''') is placed back into '''rA'''.
 
This instruction acts exactly like psq_l, except '''rA''' cannot be 0, and '''d'''+('''rA''') is placed back into '''rA'''.
 
===== psq_lux =====
 
===== psq_lux =====
  psq_lux frD, rA, rB, W, I
+
  psq_lux   frD, rA, rB, W, I
 
This instruction acts exactly like psq_lx, except '''rA''' cannot be 0, and '''d'''+('''rA''') is placed back into '''rA'''.
 
This instruction acts exactly like psq_lx, except '''rA''' cannot be 0, and '''d'''+('''rA''') is placed back into '''rA'''.
  
 
=== psq_st ===
 
=== psq_st ===
  psq_st frD, d(rA), W, I
+
  psq_st   frD, d(rA), W, I
 
This instruction quantizes values from the Paired Singles in '''frD''' and places them in the memory address in '''d'''+('''rA'''|0). If '''W''' is 1, however, it only quantizes PS0. '''I''' specifies the GQR to use for dequantization parameters. The two numbers written to memory are directly after each other, regardless of size (for example, if the GQR specified to store as a u16, '''d'''+('''rA'''|0) would be treated as a two-element array of u16s)
 
This instruction quantizes values from the Paired Singles in '''frD''' and places them in the memory address in '''d'''+('''rA'''|0). If '''W''' is 1, however, it only quantizes PS0. '''I''' specifies the GQR to use for dequantization parameters. The two numbers written to memory are directly after each other, regardless of size (for example, if the GQR specified to store as a u16, '''d'''+('''rA'''|0) would be treated as a two-element array of u16s)
 
===== psq_stx =====
 
===== psq_stx =====
  psq_stx frD, rA, rB, W, I
+
  psq_stx   frD, rA, rB, W, I
 
This instruction acts exactly like psq_st, except instead of ('''rA''') being offset by '''d''', it is offset by ('''rB''').
 
This instruction acts exactly like psq_st, except instead of ('''rA''') being offset by '''d''', it is offset by ('''rB''').
 
===== psq_stu =====
 
===== psq_stu =====
  psq_stu frD, d(rA), W, I
+
  psq_stu   frD, d(rA), W, I
 
This instruction acts exactly like psq_st, except '''rA''' cannot be 0, and '''d'''+('''rA''') is placed back into '''rA'''.
 
This instruction acts exactly like psq_st, except '''rA''' cannot be 0, and '''d'''+('''rA''') is placed back into '''rA'''.
 
===== psq_stux =====
 
===== psq_stux =====
  psq_stux frD, rA, rB, W, I
+
  psq_stux frD, rA, rB, W, I
 
This instruction acts exactly like psq_stx, except '''rA''' cannot be 0, and '''d'''+('''rA''') is placed back into '''rA'''.
 
This instruction acts exactly like psq_stx, except '''rA''' cannot be 0, and '''d'''+('''rA''') is placed back into '''rA'''.
 +
 +
== Single Parameter Operations ==
 +
These functions operate on one FPR.
 +
=== ps_abs ===
 +
ps_abs    frD, frB
 +
This instruction gets the absolute values of both paired-singles in '''frB''', and stores them in the paired-singles in '''frD'''.
 +
=== ps_mr ===
 +
ps_mr    frD, frB
 +
This instruction moves both paired-singles in '''frB''' into the paired-singles in '''frD'''.
 +
=== ps_nabs ===
 +
ps_nabs  frD, frB
 +
This instruction gets the negative absolute values of both paired-singles in '''frB''', and stores them in the paired-singles in '''frD'''.
 +
=== ps_neg ===
 +
ps_neg    frD, frB
 +
This instruction negates the values of both paired-singles in '''frB''', and stores them in the paired-singles in '''frD'''.
 +
=== ps_res ===
 +
ps_res    frD, frB
 +
This instruction gets an estimate of the reciprocals of both paired-singles in '''frB''' accurate to a precision of 1/4096, and stores them in the paired-singles in '''frD'''.
 +
=== ps_rsqrte ===
 +
ps_rsqrte frD, frB
 +
This instruction gets an estimate of the reciprocals of the square roots of both paired-singles in '''frB''' accurate to a precision of 1/4096, and stores them in the paired-singles in '''frD'''.

Revision as of 20:38, 10 July 2010

Paired singles are a unique part of the Gekko/Broadway processors used in the Gamecube and Wii. They provide fast vector math by keeping two single-precision floating point numbers in a single floating pointer register, and multiplying across between registers. This page will demonstrate how these instructions are to be used.

Quantization and Dequantization

All numbers must be quantized before being put into Paired Singles. For conversion from non-floats, in order to allow for greater flexibility, there is a form of scaling implemented. All quantization is controlled by the GQRs (Graphics Quantization Registers). The GQRs are 32bit registers containing the conversion types and scaling factors for storing and loading. (During loading, it dequantizes. During storing, it quantizes.)

GQR
  31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16
Access U R/W U R/W
Field L_Scale L_Type
  15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0
Access U R/W U R/W
Field S_Scale S_Type
Field Description
L_* Values for dequantization.
S_* Values for quantization.
Scale Signed. During dequantization divide the number by (2^scale). During quantization, multiply the number by (2^scale).
Type 0: Float (this does no scaling during de/quantization), 4: Unsigned 8bit, 5: Unsigned 16bit, 6: Signed 8bit, 7: Signed 16bit.


Loading and Storing

To load and store Paired-singles, one must use the psq_l and psq_st instructions respectively, or one of their variants.

psq_l

psq_l     frD, d(rA), W, I

This instruction dequantizes values from the memory address in d+(rA|0) and puts them into PS0 and PS1 in frD. If W is 1, however, it only dequantizes one number, and places that into PS0. PS1 is loaded with 1.0 always when W is 1. I specifies the GQR to use for dequantization parameters. The two numbers read from the memory are directly after each other, regardless of size (for example, if the GQR specified to load as a u16, you would have d+(rA|0) point to a two-element array of u16s)

psq_lx
psq_lx    frD, rA, rB, W, I

This instruction acts exactly like psq_l, except instead of (rA) being offset by d, it is offset by (rB).

psq_lu
psq_lu    frD, d(rA), W, I

This instruction acts exactly like psq_l, except rA cannot be 0, and d+(rA) is placed back into rA.

psq_lux
psq_lux   frD, rA, rB, W, I

This instruction acts exactly like psq_lx, except rA cannot be 0, and d+(rA) is placed back into rA.

psq_st

psq_st    frD, d(rA), W, I

This instruction quantizes values from the Paired Singles in frD and places them in the memory address in d+(rA|0). If W is 1, however, it only quantizes PS0. I specifies the GQR to use for dequantization parameters. The two numbers written to memory are directly after each other, regardless of size (for example, if the GQR specified to store as a u16, d+(rA|0) would be treated as a two-element array of u16s)

psq_stx
psq_stx   frD, rA, rB, W, I

This instruction acts exactly like psq_st, except instead of (rA) being offset by d, it is offset by (rB).

psq_stu
psq_stu   frD, d(rA), W, I

This instruction acts exactly like psq_st, except rA cannot be 0, and d+(rA) is placed back into rA.

psq_stux
psq_stux  frD, rA, rB, W, I

This instruction acts exactly like psq_stx, except rA cannot be 0, and d+(rA) is placed back into rA.

Single Parameter Operations

These functions operate on one FPR.

ps_abs

ps_abs    frD, frB

This instruction gets the absolute values of both paired-singles in frB, and stores them in the paired-singles in frD.

ps_mr

ps_mr     frD, frB

This instruction moves both paired-singles in frB into the paired-singles in frD.

ps_nabs

ps_nabs   frD, frB

This instruction gets the negative absolute values of both paired-singles in frB, and stores them in the paired-singles in frD.

ps_neg

ps_neg    frD, frB

This instruction negates the values of both paired-singles in frB, and stores them in the paired-singles in frD.

ps_res

ps_res    frD, frB

This instruction gets an estimate of the reciprocals of both paired-singles in frB accurate to a precision of 1/4096, and stores them in the paired-singles in frD.

ps_rsqrte

ps_rsqrte frD, frB

This instruction gets an estimate of the reciprocals of the square roots of both paired-singles in frB accurate to a precision of 1/4096, and stores them in the paired-singles in frD.