[[!tag standards]]
# SPRs
Note OpenPOWER v3.1B p12:
The designated SPR sandbox consists of non-privileged SPRs
704-719 and privileged SPRs 720-735.
There are five SPRs, available in any privilege level:
* MVL (the Maximum Vector Length)
* VL (which has different characteristics from standard SPRs)
* SUBVL (effectively a kind of SIMD)
* SVSTATE (containing copies of MVL, VL and SUBVL as well as context information)
* SVSRR0 which is used for exceptions and traps to store SVSTATE.
MVL, VL and SUBVL are only provided for convenience: normally [[sv/setvl]] would be used to obtain a copy of VL, for example.
For Privilege Levels (trap handling) there are the following SPRs,
where x may be u, s or h for User, Supervisor or Hypervisor
Modes respectively:
* (x)eSTATE (useful for saving and restoring during context switch,
and for providing fast transitions)
The u/s SPRs are treated and handled exactly like their (x)epc
equivalents. On entry to or exit from a privilege level, the contents
of its (x)eSTATE are swapped with SVSTATE.
# MAXVECTORLENGTH (MVL)
MAXVECTORLENGTH is the same concept as MVL in RVV, except that it
is variable length and may be dynamically set. MVL is
however limited to the regfile bitwidth, 64.
# Vector Length (VL)
VSETVL is slightly different from RVV. Similar to RVV, VL is set to be within
the range 0 <= VL <= MVL (where MVL in turn is limited to 1 <= MVL <= XLEN)
VL = rd = MIN(vlen, MVL)
where 1 <= MVL <= XLEN
# SUBVL - Sub Vector Length
This is a "group by quantity" that effectively asks each iteration
of the hardware loop to load SUBVL elements of width elwidth at a
time. Effectively, SUBVL is like a SIMD multiplier: instead of just 1
operation issued, SUBVL operations are issued.
The main effect of SUBVL is that predication bits are applied per
**group**, rather than by individual element. Legal values are 1 to 4.
Illegal values raise an exception.
# SVSTATE
This is a standard SPR that contains sufficient information for a
full context save/restore (see SVSRR0). It contains (and permits setting of):
* MVL
* VL
* dststep - the destination element offset of the current parallel
instruction being executed
* srcstep - for twin-predication, the source element offset as well.
* SUBVL
* svstep - the subvector element offset of the current
parallel instruction being executed
* vfirst - Vertical First mode. srcstep, dststep and substep
**do not advance** unless explicitly requested to do so with
pseudo-op svstep (a mode of setvl)
* hphint - Horizontal Parallelism Hint. In Vertical First Mode
hardware **MAY** perform up to this many elements in parallel
per instruction. Set to zero to indicate "no hint".
For hphint, the number chosen must be consistently
executed **every time**. Hardware is not permitted to execute five
computations for one instruction then three on the next.
hphint is a hint from the compiler to hardware that up to this
many elements may be safely executed in parallel.
Interestingly, when hphint is set equal to VL, it is in effect
as if Vertical First mode were not set, because the hardware is
given the option to run through all elements in an instruction.
This is exactly what Horizontal-First is: a for-loop from 0 to VL-1
except that the hardware may *choose* the number of elements.
*Note to programmers: changing VL during the middle of such modes
should be done only with due care and respect for the fact that SVSTATE
has exactly the same peer-level status as a Program Counter.*
The format of the SVSTATE SPR is as follows:
| Field | Name | Description |
| ----- | -------- | --------------------- |
| 0:6 | maxvl | Max Vector Length |
| 7:13 | vl | Vector Length |
| 14:20 | srcstep | for srcstep = 0..VL-1 |
| 21:27 | dststep | for dststep = 0..VL-1 |
| 28:29 | subvl | Sub-vector length |
| 30:31 | svstep | for svstep = 0..SUBVL-1 |
| 32:33 | mi0 | REMAP RA SVSHAPE0-3 |
| 34:35 | mi1 | REMAP RB SVSHAPE0-3 |
| 36:37 | mi2 | REMAP RC SVSHAPE0-3 |
| 38:39 | mo0 | REMAP RT SVSHAPE0-3 |
| 40:41 | mo1 | REMAP EA SVSHAPE0-3 |
| 42:46 | SVme | REMAP enable (RA-RT) |
| 47:t4 | rsvd | reserved |
| 55:61 | hphint | horizontal parallelism hint |
| 62 | RMpst | REMAP persistence |
| 63 | vfirst | Vertical First mode |
The relationship between SUBVL and the subvl field is:
| SUBVL | (29..28) |
| ----- | -------- |
| 1 | 0b00 |
| 2 | 0b01 |
| 3 | 0b10 |
| 4 | 0b11 |
Notes:
* The entries are truncated to be within range. Attempts to set VL to
greater than MAXVL will truncate VL.
* Setting srcstep, dststep to 64 or greater, or VL or MVL to greater
than 64 is reserved and will cause an illegal instruction trap.
# SVSRR0
In scalar v3.0B traps, exceptions and interrupts, two SRRs are saved/restored:
* SRR0 to store the PC (CIA/NIA)
* SRR1 to store a copy of the MSR
Given that SVSTATE is effectively a Sub-PC it is critically important to add saving/restoring of SVSTATE as a full peer equal in status to PC, in every way. At any time PC is saved or restored, so is SVSTATE in **exactly** the same way for **exactly** the same reasons. Thus, at an exception point,
hardware **must** save/restore SVSTATE in SVSRR0 at exactly the same
time that SRR0 is saved/restored in PC and SRR1 in MSR.
The SPR name given for the purposes of saving/restoring SVSTATE is SVSRR0.