disentangled synapse handshake circuits, passing tests

This commit is contained in:
alexmadison 2022-04-20 18:24:43 +02:00
parent cd5900d4dc
commit 351b3ea151
2 changed files with 63 additions and 37 deletions

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@ -93,7 +93,6 @@ defproc texel_core (avMx1of2<N_IN> in, out;
slice_data<N_IN-1, 0, NC_SYN> slice_pre_dec(.in = _demux.out1, .supply = supply);
fifo<NC_SYN,N_BUFFERS> fifo_dmx2dec(.in = slice_pre_dec.out, .reset_B = _reset_BX, .supply = supply);
decoder_2d_hybrid<NC_SYN_X, NC_SYN_Y, N_SYN_X, N_SYN_Y, N_SYN_DLY_CFG> decoder(.in = fifo_dmx2dec.out,
.out = synapses,
.hs_en = register.data[0].d[0].t, // Defaults to handshake disable
.ack_disable = register.data[1].d[2].t, // Defaults to ack enabled
.supply = supply, .reset_B = _reset_BX);
@ -103,7 +102,16 @@ defproc texel_core (avMx1of2<N_IN> in, out;
dly_cfg_inverters[i].vdd = supply.vdd;
dly_cfg_inverters[i].vss = supply.vss;
decoder.dly_cfg[i] = dly_cfg_inverters[i].y;
) // This sexy hack means that the inverters are max delay throughout the register flush operations.
)
// Synapse handshake circuits, to be removed for innovus
decoder_2d_synapse_hs<N_SYN_X, N_SYN_Y> _synapses(
.synapses = synapses,
.in_req_x = decoder.out_req_x, .in_req_y = decoder.out_req_y,
.in_ackB_pullups = decoder.out_ackB_pullups,
.out_req_x_pullups = decoder.in_req_x_pullups,
.out_ackB_decoder = decoder.in_ackB_decoder,
.supply = supply);
// Neurons + encoder
pint NC_NRN;

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@ -382,6 +382,45 @@ defproc decoder_2d_hs (avMx1of2<NxC+NyC> in; a1of1 out[Nx*Ny]; bool? reset_B; po
}
/**
* Synapse handshaking stuff which exists in the core, and so will not be spawned in
* when innovusing all the periphery.
*/
export template<pint Nx, Ny>
defproc decoder_2d_synapse_hs (bool? in_req_x[Nx], in_req_y[Ny]; a1of1 synapses[Nx*Ny];
bool out_ackB_decoder[Nx];
bool in_ackB_pullups[Nx];
bool out_req_x_pullups[Nx];
power supply) {
// and grid for reqs into synapses
and_grid<Nx, Ny> _and_grid(.inx = in_req_x, .iny = in_req_y, .supply = supply);
(i:Nx*Ny: synapses[i].r = _and_grid.out[i];)
// Pull DOWNs on the ackB lines by synapses (easier to invert).
A_2N_U_X4 ack_pulldowns[Nx*Ny];
pint index;
(i:Nx:
(j:Ny:
index = i + Nx*j;
ack_pulldowns[index].n1 = synapses[index].a;
ack_pulldowns[index].n2 = in_req_x[i]; // GET REFRHRESED IN CORE
ack_pulldowns[index].y = out_ackB_decoder[i];
ack_pulldowns[index].vss = supply.vss;
ack_pulldowns[index].vdd = supply.vdd;
)
)
// Connect the ackB lines together
(i:Nx: out_ackB_decoder[i] = in_ackB_pullups[i];)
// Pipe req x lines down to the ackB pullups
(i:Nx: out_req_x_pullups[i] = in_req_x[i];)
}
/**
* 2D decoder which uses either synapse handshaking, or just a delay.
* Controlled by the "hs_en" (handshake_enable) config bit.
@ -395,8 +434,11 @@ defproc decoder_2d_hs (avMx1of2<NxC+NyC> in; a1of1 out[Nx*Ny]; bool? reset_B; po
* Is needed in case there are instabilities while we fiddle with delays.
*/
export template<pint NxC, NyC, Nx, Ny, N_dly_cfg>
defproc decoder_2d_hybrid (avMx1of2<NxC+NyC> in; a1of1 out[Nx*Ny]; bool? dly_cfg[N_dly_cfg], hs_en, ack_disable,
reset_B; power supply) {
defproc decoder_2d_hybrid (avMx1of2<NxC+NyC> in; bool! out_req_x[Nx], out_req_y[Ny]; bool? dly_cfg[N_dly_cfg], hs_en, ack_disable;
bool in_ackB_decoder[Nx]; // AckB lines back to the decoder for handshaking
bool out_ackB_pullups[Nx]; // AckB lines from the line end pull ups
bool in_req_x_pullups[Nx]; // req x lines going to the line pull ups
bool? reset_B; power supply) {
bool _reset_BX[Nx];
sigbuf<Nx> reset_sb(.in = reset_B, .out = _reset_BX, .supply = supply);
@ -416,13 +458,9 @@ defproc decoder_2d_hybrid (avMx1of2<NxC+NyC> in; a1of1 out[Nx*Ny]; bool? dly_cfg
// sig buf for reqx lines, since they go to synapse pull down gates.
// Signals to the and-grid are buffered therein.
sigbuf_boolarray<Nx,15> d_dr_xX(.in = d_dr_x.out, .supply = supply);
// sigbuf<15> d_dr_xX[Nx]; // GET REFRESHED IN CORE
// (i:Nx:
// d_dr_xX[i].in = d_dr_x.out[i];
// d_dr_xX[i].supply = supply;
// )
d_dr_xX.out = out_req_x;
sigbuf_boolarray<Ny,47> d_dr_yX(.in = d_dr_y.out, .supply = supply);
d_dr_yX.out = out_req_y;
// Validity
@ -432,27 +470,6 @@ defproc decoder_2d_hybrid (avMx1of2<NxC+NyC> in; a1of1 out[Nx*Ny]; bool? dly_cfg
.vdd = supply.vdd, .vss = supply.vss);
// and grid for reqs into synapses
and_grid<Nx, Ny> _and_grid(.inx = d_dr_xX.out, .iny = d_dr_yX.out, .supply = supply);
(i:Nx*Ny: out[i].r = _and_grid.out[i];)
// Acknowledge pull down time
// Pull DOWNs on the ackB lines by synapses (easier to invert).
bool _out_acksB[Nx]; // The vertical output ack lines from each syn.
A_2N_U_X4 ack_pulldowns[Nx*Ny];
pint index;
(i:Nx:
(j:Ny:
index = i + Nx*j;
ack_pulldowns[index].n1 = out[index].a;
ack_pulldowns[index].n2 = d_dr_xX.out[i]; // GET REFRHRESED IN CORE
ack_pulldowns[index].y = _out_acksB[i];
ack_pulldowns[index].vss = supply.vss;
ack_pulldowns[index].vdd = supply.vdd;
)
)
// Line end pull UPs (triggered once reqs removed)
// Use two pullups rather than and-pullup
@ -462,14 +479,14 @@ defproc decoder_2d_hybrid (avMx1of2<NxC+NyC> in; a1of1 out[Nx*Ny]; bool? dly_cfg
A_2P_U_X4 pu[Nx]; // TODO probably replace this with variable strength PU
A_1P_U_X4 pu_reset[Nx];
(i:Nx:
pu[i].p1 = d_dr_xX.out[i];
pu[i].p1 = in_req_x_pullups[i];
pu[i].p2 = hs_enB;
pu[i].y = _out_acksB[i];
pu[i].y = out_ackB_pullups[i];
pu[i].vdd = supply.vdd;
pu[i].vss = supply.vss;
pu_reset[i].p1 = _reset_BX[i];
pu_reset[i].y = _out_acksB[i];
pu_reset[i].y = out_ackB_pullups[i];
pu_reset[i].vdd = supply.vdd;
pu_reset[i].vss = supply.vss;
)
@ -479,16 +496,17 @@ defproc decoder_2d_hybrid (avMx1of2<NxC+NyC> in; a1of1 out[Nx*Ny]; bool? dly_cfg
(i:Nx:
keeps[i].vdd = supply.vdd;
keeps[i].vss = supply.vss;
keeps[i].y = _out_acksB[i];
keeps[i].y = out_ackB_pullups[i];
)
// ORtree from all output acks, back to the buffer ack.
// This is instead of the ack that came from the delayed validity trees,
// in decoder_2d_dly.
ortree<Nx> _ortree(.supply = supply);
INV_X1 out_ack_invs[Nx];
(i:Nx:
out_ack_invs[i].a = _out_acksB[i];
out_ack_invs[i].a = in_ackB_decoder[i];
out_ack_invs[i].vdd = supply.vdd;
out_ack_invs[i].vss = supply.vss;