Commit Graph

1248 Commits (86212dc8797a454c8dcd52c2b275731ec1dffc6e)
 

Author SHA1 Message Date
Paul Mackerras 337b104250 Move LR, CTR and TAR out of the register file
By putting CTR on the odd side and LR and TAR on the even side, we can
read and write CTR for bdnz-style instructions in parallel with
reading LR or TAR for indirect branches and writing LR for branches
with LK=1.  Thus we don't need to double up any of these instructions,
giving a simplification in decode2.

We now have logic for printing LR and CTR at the end of a simulation
in execute1, in addition to the similar logic in register_file and
cr_file.

Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
2 years ago
Paul Mackerras bc4d02cb0d Start removing SPRs from register file
This starts the process of removing SPRs from the register file by
moving SRR0/1, SPRG0-3, HSRR0/1 and HSPRG0/1 out of the register file
and putting them into execute1.  They are stored in a pair of small
RAM arrays, referred to as "even" and "odd".  The reason for having
two arrays is so that two values can be read and written in each
cycle.  For example, SRR0 and SRR1 can be written in parallel by an
interrupt and read in parallel by the rfid instruction.

The addresses in the RAM which will be accessed are determined in the
decode2 stage.  We have one write address for both sides, but two read
addresses, since in future we will want to be able to read CTR at the
same time as either LR or TAR.

We now have a connection from writeback to execute1 which carries the
partial SRR1 value for an interrupt.  SRR0 comes from the execute
pipeline; we no longer need to carry instruction addresses along the
LSU and FPU pipelines.  Since SRR0 and SRR1 can be written in the same
cycle now, we don't need the little state machine in writeback any
more.

Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
2 years ago
Paul Mackerras 73cc5167ec Use FPU for division instructions if we have an FPU
- Arrange for XER to be written for OE=1 forms
- Arrange for condition codes to be set for RC=1 forms
  (including correct handling for 32-bit mode)
- Don't instantiate the divider if we have an FPU.

Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
2 years ago
Paul Mackerras 34330552e8 FPU: Add logic for 32-bit integer division
Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
2 years ago
Paul Mackerras a95f8aab38 FPU: Add integer division logic to FPU
This adds logic to the FPU to accomplish 64-bit integer divisions.
No instruction actually uses this yet.

The algorithm used is to obtain an estimate of the reciprocal of the
divisor using the lookup table and refine it by one to three
iterations of the Newton-Raphson algorithm (the number of iterations
depends on the number of significant bits in the dividend).  Then the
reciprocal is multiplied by the dividend to get the quotient estimate.
The remainder is calculated as dividend - quotient * divisor.  If the
remainder is greater than or equal to the divisor, the quotient is
incremented, or if a modulo operation is being done, the divisor is
subtracted from the remainder.  The inverse estimate after refinement
is good enough that the quotient estimate is always equal to or one
less than the true quotient.

Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
2 years ago
Paul Mackerras 23d5c4edc5 FPU: Convert internal R, A, B, and C registers to 8.56 format
This changes the representation of the R, A, B and C registers in the
FPU from 10.54 format (10 bits to the left of the binary point and 54
bits to the right) to 8.56 format, to match the representation used in
the P and Y registers and the multiplier operands.  This eliminates
the need for shifting when R, A, B or C is an input to the multiplier
and will make it easier to implement integer division in the FPU.

Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
2 years ago
Paul Mackerras d1850fea29 Track hazards explicitly for XER overflow bits
This provides a mechanism for tracking updates to the XER overflow
bits (SO, OV, OV32) and stalling instructions which need current
values of those bits (mfxer, integer compare instructions, integer
Rc=1 instructions, addex) or which writes carry bits (since all the
XER common bits are written together, if we are writing CA/CA32 we
need up-to-date values of SO/OV/OV32).

This will enable updates to SO/OV/OV32 to be done at other places
besides the ex1 stage.

Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
2 years ago
Paul Mackerras 7c240a664b fetch1: Fix debug stop again
This fixes a bug which prevents the core from stopping properly.  The
same bug was previously fixed in commit e41cb01bca ("fetch1: Fix
debug stop", 2020-12-19) and reintroduced by commit 0fb207be60
("fetch1: Implement a simple branch target cache", 2020-12-19).

Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
2 years ago
Paul Mackerras e598c2aef8 control: Reimplement serialization using tags
This lets us get rid of r_int and its 'outstanding' counter.  We now
test more directly for excess completions by checking that we don't
get duplicate completions for the same tag.

Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
2 years ago
Paul Mackerras 2da08bcf2e decode1: Remove stash buffer
Now that the timing of the busy signal from decode2 doesn't depend on
register numbers or downstream instruction completion, we no longer
need the stash buffer on the output of decode1.

Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
2 years ago
Paul Mackerras 2f45e545ed decode2: Rework to make the stall_out signal come from a register
At present the busy/stall signal going to decode1 depends on whether
control thinks it can issue the current instruction, and that depends
on completion and bypass signals coming from execute1 and writeback.

To improve the timing of stall_out, this rearranges decode2 so that
stall_out is asserted when we have a valid instruction that couldn't
be issued in the previous cycle.  This means that decode1 could give
us a new instruction when we haven't issued the previous instruction.

This in turn means that we can only use d_in in the first cycle of
processing an instruction.  After the first cycle, we get register
addresses etc. from dc2 rather than d_in.

Then, to avoid the need to read register operands from register_file
in each cycle until the instruction issues, we bring the bypass path
for data being written to the register file into decode2 explicitly
rather than having it in register_file.

A new process called decode2_addrs does the process of calling
decode_input_reg_* and decode_output_reg and sets up the register file
addresses.  This was split out (and decode_input_reg_* reworked) to
try to reduce the number of passes through the decode2_1 process that
need to be done in simulation.

Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
2 years ago
Paul Mackerras c9e838b656 Remove support for lq, stq, lqarx and stqcx.
They are optional in SFFS (scalar fixed-point and floating-point
subset), are not needed for running Linux, and add complexity, so
remove them.

Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
2 years ago
Paul Mackerras 0bd1e24024 decode2: Rename 'r' to 'dc2'
Also get rid of a couple of unused variables.

Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
2 years ago
Paul Mackerras ebe1caab85 decode1: Reduce number of single-issue instructions
This reduces the set of instructions marked as single-issue to just
attn and mtspr to "slow" SPRs (those that are not stored in the
register file).

The instructions that were previously single-issue are: isync, dcbf,
dcbst, dcbt, dcbtst, eieio, icbi, mfmsr, mtmsr, mtmsrd, mfspr to slow
SPRS, sync, tlbsync and wait.  The synchronization instructions are
mostly no-ops anyway due to the in-order nature of the core, and the
cache-management instructions are unimplemented (except for icbi).
The MSR ops don't need to be single-issue due to the in-order core and
the fact that MSR updates are effective on the following instruction.

Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
2 years ago
Paul Mackerras 9a8a8e50f8 FPU: Add stage-2 stall ability to FPU
This makes the FPU able to stall other units at execute stage 2 and be
stalled by other units (specifically the LSU).

This means that the completion and writeback for an instruction can
now end up being deferred until the second cycle of a following
instruction, i.e. the cycle when the state machine has gone through
IDLE state into one of the DO_* states, which means we need to latch
the destination FPR number, CR mask, etc. from the previous
instruction so that we present the correct information to writeback.

The advantage of this is that we can get rid of the in_progress signal
from the LSU.

Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
2 years ago
Paul Mackerras ef122868d5 Do CR0 setting for Rc=1 instructions in execute2 instead of writeback
This lets us forward the CR0 result to following instructions that
use CR, meaning they get to issue one cycle earlier.

Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
2 years ago
Paul Mackerras e030a500e8 Allow integer instructions and load/store instructions to execute together
Execute1 and loadstore1 now send each other stall signals that
indicate that a valid instruction in stage 2 can't complete in this
cycle, and hence any valid instruction in stage 1 in the other unit
can't move to stage 2.  With this in place, an ALU instruction can
move into stage 1 while a LSU instruction is in stage 2.

Since the FPU doesn't yet have a way to stall completion, we can't yet
start FPU instructions while any LSU or ALU instruction is in
progress.

Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
2 years ago
Paul Mackerras 4b6148ada6 Add a bypass path from the execute2 stage
This enables some instructions to issue earlier and thus improves
performance, at the cost of some extra multiplexers in decode2.

Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
2 years ago
Paul Mackerras 3510071d9a Add a second execute stage to the pipeline
This adds a second execute stage to the pipeline, in order to match up
the length of the pipeline through loadstore and dcache with the
length through execute1.  This will ultimately enable us to get rid of
the 1-cycle bubble that we currently have when issuing ALU
instructions after one or more LSU instructions.

Most ALU instructions execute in the first stage, except for
count-zeroes and popcount instructions (which take two cycles and do
some of their work in the second stage) and mfspr/mtspr to "slow" SPRs
(TB, DEC, PVR, LOGA/LOGD, CFAR).  Multiply and divide/mod instructions
take several cycles but the instruction stays in the first stage (ex1)
and ex1.busy is asserted until the operation is complete.

There is currently a bypass from the first stage but not the second
stage.  Performance is down somewhat because of that and because this
doesn't yet eliminate the bubble between LSU and ALU instructions.

The forwarding of XER common bits has been changed somewhat because
now there is another pipeline stage between ex1 and the committed
state in cr_file.  The simplest thing for now is to record the last
value written and use that, unless there has been a flush, in which
case the committed state (obtained via e_in.xerc) is used.

Note that this fixes what was previously a benign bug in control.vhdl,
where it was possible for control to forget an instructions dependency
on a value from a previous instruction (a GPR or the CR) if this
instruction writes the value and the instruction gets to the point
where it could issue but is blocked by the busy signal from execute1.
In that situation, control may incorrectly not indicate that a bypass
should be used.  That didn't matter previously because, for ALU and
FPU instructions, there was only one previous instruction in flight
and once the current instruction could issue, the previous instruction
was completing and the correct value would be obtained from
register_file or cr_file.  For loadstore instructions there could be
two being executed, but because there are no bypass paths, failing to
indicate use of a bypass path is fine.

Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
2 years ago
Paul Mackerras 521a5403a9 execute1: Rename 'r' to 'ex1'
Maybe this will give us slightly better names in critical path reports
and the like.

Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
2 years ago
Paul Mackerras 813e2317bf execute1: Restructure to separate out execution of side effects
We now have a record that represents the actions taken in executing an
instruction, and a process that computes that for the incoming
instruction.  We no longer have 'current' or 'r.cur_instr', instead
things like the destination register are put into r.e in the first
cycle of an instruction and not reinitialized in subsequent busy
cycles.

For mfspr and mtspr, we now decode "slow" SPR numbers (those SPRs that
are not stored in the register file) to a new "spr_selector" record
in decode1 (excluding those in the loadstore unit).  With this, the
result for mfspr is determined in the data path.

Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
2 years ago
Iago Caran Aquino de1bf10114 tests/pmu: Add load/store completed, instruction count and cycle count tests
Signed-off-by: Iago Caran Aquino <iago.caran@gmail.com>
2 years ago
Paul Mackerras 204fedc63f Move XER low bits out of register file
Besides the overflow and status carry bits, XER has 18 bits which need
to retain the value written by mtxer (in case software wants to
emulate the move-assist instructions (lswi, lswx, stswi, stswx).
Until now these bits (and others) have been stored in the GPR file as
a "fast" SPR, but this causes complications because XER is not really
a fast SPR.

Instead, we now store these 18 bits in the 'ctrl' signal, which exists
in execute1.  This will enable us to simplify the data path in future,
and has the added bonus that with a little bit of plumbing, we can get
the full XER value printed when dumping registers at the end of a
simulation.

Therefore this changes scripts/run_test.sh to remove the greps which
exclude XER from the comparison of actual and expected register
results.

Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
3 years ago
Paul Mackerras bdd4d04162 Simplify flow control in the dcache and loadstore units
Simplify the flow control by stalling the whole upstream pipeline when
a stage can't proceed, instead of trying to let each stage progress
independently when it can.

Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
3 years ago
Paul Mackerras 35e0dbed34
Merge pull request #353 from tianrui-wei/master
fix: fix icache_tb not finishing correctly
3 years ago
Michael Neuling cd52390bf1
Merge pull request #373 from antonblanchard/icache-insn-u-state
icache: Don't output X on i_out.insn
3 years ago
Michael Neuling b983d5080e
Merge pull request #376 from antonblanchard/loadstore-init
loadstore1: reduce U state being output
3 years ago
Michael Neuling d4db331467
Merge pull request #374 from antonblanchard/icache-unused-sig
core: Remove unused icache_inv signal
3 years ago
Michael Neuling ee5e3778ed
Merge pull request #364 from shenki/readme-updates
Readme updates
3 years ago
Michael Neuling c43692f4c7
Merge pull request #372 from antonblanchard/dcache-unused-sig
dcache: remove unused do_write signal
3 years ago
Michael Neuling 956df2c863
Merge pull request #371 from antonblanchard/unused-sig
execute1: sub_mux_sel and result_mux_sel are unused
3 years ago
Michael Neuling 3627f102db
Merge pull request #370 from antonblanchard/divider-init
divider: Fix d_out.overflow U state issue
3 years ago
Paul Mackerras 6e1e763c02
Merge pull request #368 from antonblanchard/icache-pmu-events
icache: Hook up PMU events
3 years ago
Anton Blanchard 1047239a37
Merge pull request #377 from antonblanchard/fpu-init
fpu: Reduce uninitialised signals
3 years ago
Anton Blanchard 9d35340bb1 fpu: Reduce uninitialised signals
Reduce uninitialised signals coming out of the FPU.

Signed-off-by: Anton Blanchard <anton@linux.ibm.com>
3 years ago
Michael Neuling b82eea5933
Merge pull request #366 from antonblanchard/hello-world-bss
Zero BSS in hello world test
3 years ago
Anton Blanchard d3aff67fa7
Merge pull request #375 from antonblanchard/core_debug-init
core_debug: Initialise gspr_index
3 years ago
Anton Blanchard b47b71821e loadstore1: reduce U state being output
While these signals should only be read when valid is true, they
are only a small number of bits and we want to reduce the amount of
U/X state bouncing around the chip.

Signed-off-by: Anton Blanchard <anton@linux.ibm.com>
3 years ago
Anton Blanchard 71d4b5ed20 core_debug: Initialise gspr_index
Another case of U state being driven out of a module.

Signed-off-by: Anton Blanchard <anton@linux.ibm.com>
3 years ago
Anton Blanchard a527d9b959 core: Remove unused icache_inv signal
Signed-off-by: Anton Blanchard <anton@linux.ibm.com>
3 years ago
Anton Blanchard e7f0a7c7ac icache: Don't output X on i_out.insn
decode1 has a lot of logic that uses i_out.insn without first looking at
i_iout.valid. Play it safe and never output X state.

Signed-off-by: Anton Blanchard <anton@linux.ibm.com>
3 years ago
Anton Blanchard 39220be311 dcache: remove unused do_write signal
Signed-off-by: Anton Blanchard <anton@linux.ibm.com>
3 years ago
Anton Blanchard 843361f2be execute1: sub_mux_sel and result_mux_sel are unused
Remove them.

Signed-off-by: Anton Blanchard <anton@linux.ibm.com>
3 years ago
Anton Blanchard d3a7517318 divider: Fix d_out.overflow U state issue
While we should only look at this when d_out.valid = 1, we may as remove
some U state across interfaces.

Signed-off-by: Anton Blanchard <anton@linux.ibm.com>
3 years ago
Anton Blanchard 1ff852b012
Merge pull request #369 from antonblanchard/loadstore-pmu-init
loadstore1: Initialise PMU events
3 years ago
Anton Blanchard e2438071a1 loadstore1: Initialise PMU events
The loadstore1 PMU events are U state until a load and a store completes.

Signed-off-by: Anton Blanchard <anton@linux.ibm.com>
3 years ago
Anton Blanchard b7c4d3c5c3
Merge pull request #367 from antonblanchard/fpu-typo
fpu: Fix capitalisation of Execute1ToFPUType
3 years ago
Anton Blanchard f06abb67ad icache: Hook up PMU events
We weren't connecting the icache PMU events up.

Signed-off-by: Anton Blanchard <anton@linux.ibm.com>
3 years ago
Anton Blanchard 64d2def0c6 fpu: Fix capitalisation of Execute1ToFPUType
While this is not an issue in VHDL, I noticed this when running
a script over the source and we may as well fix it.

Signed-off-by: Anton Blanchard <anton@linux.ibm.com>
3 years ago
Anton Blanchard ff442d1bdb Zero BSS in hello world test
While trying to reduce U/X state issues, I notice that our BSS is not
being initialised in the hello world test.

Signed-off-by: Anton Blanchard <anton@linux.ibm.com>
3 years ago