loadstore1: Further tweaks to improve synthesis with yosys/nextpnr

This reworks the way that the busy and done signals are generated in
loadstore in order to work around some problems where yosys/nextpnr
are reporting combinatorial loops (not in fact on the current code but
on minor variations needed for supporting the FPU).  It seems that
yosys has problems with the case statement on v.state.

This also lifts the maddr and byte_sel generation out of the case
statement.  The overall result is a slight reduction in resource usage
(~30 6-input LUTs on the A7-100).

Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
pull/233/head
Paul Mackerras 5 years ago
parent 128fe8ac26
commit 2cb1d7671e

@ -44,10 +44,9 @@ architecture behave of loadstore1 is
type state_t is (IDLE, -- ready for instruction
SECOND_REQ, -- send 2nd request of unaligned xfer
ACK_WAIT, -- waiting for ack from dcache
LD_UPDATE, -- writing rA with computed addr on load
MMU_LOOKUP, -- waiting for MMU to look up translation
TLBIE_WAIT, -- waiting for MMU to finish doing a tlbie
SPR_CMPLT -- complete a mf/tspr operation
COMPLETE -- extra cycle to complete an operation
);

type reg_stage_t is record
@ -83,6 +82,8 @@ architecture behave of loadstore1 is
busy : std_ulogic;
wait_dcache : std_ulogic;
wait_mmu : std_ulogic;
do_update : std_ulogic;
extra_cycle : std_ulogic;
end record;

type byte_sel_t is array(0 to 7) of std_ulogic;
@ -132,8 +133,7 @@ begin
if rst = '1' then
r.state <= IDLE;
r.busy <= '0';
r.wait_dcache <= '0';
r.wait_mmu <= '0';
r.do_update <= '0';
else
r <= rin;
end if;
@ -172,9 +172,6 @@ begin
begin
v := r;
req := '0';
byte_sel := (others => '0');
addr := lsu_sum;
maddr := l_in.addr2; -- address from RB for tlbie
v.mfspr := '0';
mmu_mtspr := '0';
itlb_fault := '0';
@ -183,7 +180,9 @@ begin
mmureq := '0';

write_enable := '0';
do_update := '0';

do_update := r.do_update;
v.do_update := '0';

-- load data formatting
byte_offset := unsigned(r.addr(2 downto 0));
@ -239,7 +238,8 @@ begin
-- Busy calculation.
-- We need to minimize the delay from clock to busy valid because it
-- gates the start of execution of the next instruction.
busy := r.busy or (r.wait_dcache and not d_in.valid) or (r.wait_mmu and not m_in.done);
busy := r.busy and not ((r.wait_dcache and d_in.valid) or (r.wait_mmu and m_in.done));
v.busy := busy;

done := '0';
if r.state /= IDLE and busy = '0' then
@ -247,12 +247,19 @@ begin
end if;
exception := '0';

if r.dwords_done = '1' or r.state = SECOND_REQ then
maddr := next_addr;
byte_sel := r.second_bytes;
else
maddr := r.addr;
byte_sel := r.first_bytes;
end if;
addr := maddr;

case r.state is
when IDLE =>

when SECOND_REQ =>
addr := next_addr;
byte_sel := r.second_bytes;
req := '1';
v.state := ACK_WAIT;
v.last_dword := '0';
@ -261,11 +268,6 @@ begin
if d_in.error = '1' then
-- dcache will discard the second request if it
-- gets an error on the 1st of two requests
if r.dwords_done = '1' then
maddr := next_addr;
else
maddr := r.addr;
end if;
if d_in.cache_paradox = '1' then
-- signal an interrupt straight away
exception := '1';
@ -289,24 +291,22 @@ begin
end if;
else
write_enable := r.load;
if r.load = '1' and r.update = '1' then
if r.extra_cycle = '1' then
-- loads with rA update need an extra cycle
v.state := LD_UPDATE;
v.state := COMPLETE;
v.do_update := r.update;
else
-- stores write back rA update in this cycle
do_update := r.update;
end if;
v.busy := '0';
end if;
end if;
-- r.wait_dcache gets set one cycle after we come into ACK_WAIT state,
-- which is OK because the dcache always takes at least two cycles.
v.wait_dcache := r.last_dword and not r.extra_cycle;

when MMU_LOOKUP =>
if r.dwords_done = '1' then
addr := next_addr;
byte_sel := r.second_bytes;
else
addr := r.addr;
byte_sel := r.first_bytes;
end if;
if m_in.done = '1' then
if r.instr_fault = '0' then
-- retry the request now that the MMU has installed a TLB entry
@ -329,15 +329,13 @@ begin

when TLBIE_WAIT =>

when LD_UPDATE =>
do_update := '1';

when SPR_CMPLT =>
when COMPLETE =>

end case;

if done = '1' or exception = '1' then
v.state := IDLE;
v.busy := '0';
end if;

-- Note that l_in.valid is gated with busy inside execute1
@ -361,6 +359,13 @@ begin
v.nc := l_in.ci;
v.virt_mode := l_in.virt_mode;
v.priv_mode := l_in.priv_mode;
v.wait_dcache := '0';
v.wait_mmu := '0';
v.do_update := '0';
v.extra_cycle := '0';

addr := lsu_sum;
maddr := l_in.addr2; -- address from RB for tlbie

-- XXX Temporary hack. Mark the op as non-cachable if the address
-- is the form 0xc------- for a real-mode access.
@ -392,6 +397,8 @@ begin
when OP_LOAD =>
req := '1';
v.load := '1';
-- Allow an extra cycle for RA update on loads
v.extra_cycle := l_in.update;
when OP_DCBZ =>
req := '1';
v.dcbz := '1';
@ -399,6 +406,7 @@ begin
mmureq := '1';
v.tlbie := '1';
v.state := TLBIE_WAIT;
v.wait_mmu := '1';
when OP_MFSPR =>
v.mfspr := '1';
-- partial decode on SPR number should be adequate given
@ -413,7 +421,7 @@ begin
-- reading one of the SPRs in the MMU
v.sprval := m_in.sprval;
end if;
v.state := SPR_CMPLT;
v.state := COMPLETE;
when OP_MTSPR =>
if sprn(9) = '0' and sprn(5) = '0' then
if sprn(0) = '0' then
@ -421,11 +429,12 @@ begin
else
v.dar := l_in.data;
end if;
v.state := SPR_CMPLT;
v.state := COMPLETE;
else
-- writing one of the SPRs in the MMU
mmu_mtspr := '1';
v.state := TLBIE_WAIT;
v.wait_mmu := '1';
end if;
when OP_FETCH_FAILED =>
-- send it to the MMU to do the radix walk
@ -433,6 +442,7 @@ begin
v.instr_fault := '1';
mmureq := '1';
v.state := MMU_LOOKUP;
v.wait_mmu := '1';
when others =>
assert false report "unknown op sent to loadstore1";
end case;
@ -444,32 +454,9 @@ begin
v.state := SECOND_REQ;
end if;
end if;
end if;

-- Work out whether we'll be busy next cycle
v.busy := '0';
v.wait_dcache := '0';
v.wait_mmu := '0';
case v.state is
when SECOND_REQ =>
v.busy := '1';
when ACK_WAIT =>
if v.last_dword = '0' or (v.load = '1' and v.update = '1') then
v.busy := '1';
else
v.wait_dcache := '1';
v.busy := req or mmureq or mmu_mtspr;
end if;
when MMU_LOOKUP =>
if v.instr_fault = '0' then
v.busy := '1';
else
v.wait_mmu := '1';
end if;
when TLBIE_WAIT =>
v.wait_mmu := '1';
when others =>
-- not busy next cycle
end case;

-- Update outputs to dcache
d_out.valid <= req;

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