// // Author: Wolfgang Spraul // // This is free and unencumbered software released into the public domain. // For details see the UNLICENSE file at the root of the source tree. // #include #include "model.h" enum which_side { TOP_S, BOTTOM_S, RIGHT_S, LEFT_S }; static int init_iologic_ports(struct fpga_model* model, int y, int x, enum which_side side, int dup_warn) { static const char* prefix, *suffix1, *suffix2; int rc, i; switch (side) { case TOP_S: prefix = "TIOI"; break; case BOTTOM_S: prefix = "BIOI"; break; case LEFT_S: prefix = "LIOI"; break; case RIGHT_S: prefix = "RIOI"; break; default: EXIT(1); } if (side == LEFT_S || side == RIGHT_S) { suffix1 = "_M"; suffix2 = "_S"; } else { suffix1 = "_STUB"; suffix2 = "_S_STUB"; } for (i = X_A /* 0 */; i <= M_DQ /* 23 */; i++) { rc = add_connpt_name(model, y, x, pf("IOI_INTER_LOGICOUT%i", i), dup_warn, /*name_i*/ 0, /*connpt_o*/ 0); if (rc) goto xout; } rc = add_connpt_name(model, y, x, pf("%s_GND_TIEOFF", prefix), dup_warn, 0, 0); if (rc) goto xout; rc = add_connpt_name(model, y, x, pf("%s_VCC_TIEOFF", prefix), dup_warn, 0, 0); if (rc) goto xout; rc = add_connpt_name(model, y, x, pf("%s_KEEP1_STUB", prefix), dup_warn, 0, 0); if (rc) goto xout; for (i = 0; i <= 4; i++) { rc = add_connpt_2(model, y, x, pf("AUXADDR%i_IODELAY", i), suffix1, suffix2, dup_warn); if (rc) goto xout; } rc = add_connpt_2(model, y, x, "AUXSDOIN_IODELAY", suffix1, suffix2, dup_warn); if (rc) goto xout; rc = add_connpt_2(model, y, x, "AUXSDO_IODELAY", suffix1, suffix2, dup_warn); if (rc) goto xout; rc = add_connpt_2(model, y, x, "MEMUPDATE_IODELAY", suffix1, suffix2, dup_warn); if (rc) goto xout; rc = add_connpt_name(model, y, x, "OUTN_IODELAY_SITE", dup_warn, 0, 0); if (rc) goto xout; rc = add_connpt_name(model, y, x, "STUB_OUTN_IODELAY_S", dup_warn, 0, 0); if (rc) goto xout; rc = add_connpt_name(model, y, x, "OUTP_IODELAY_SITE", dup_warn, 0, 0); if (rc) goto xout; rc = add_connpt_name(model, y, x, "STUB_OUTP_IODELAY_S", dup_warn, 0, 0); if (rc) goto xout; for (i = 1; i <= 4; i++) { rc = add_connpt_2(model, y, x, pf("Q%i_ILOGIC_SITE", i), "", "_S", dup_warn); if (rc) goto xout; rc = add_connpt_2(model, y, x, pf("D%i_OLOGIC_SITE", i), "", "_S", dup_warn); if (rc) goto xout; rc = add_connpt_2(model, y, x, pf("T%i_OLOGIC_SITE", i), "", "_S", dup_warn); if (rc) goto xout; rc = add_connpt_2(model, y, x, pf("SHIFTIN%i_OLOGIC_SITE", i), "", "_S", dup_warn); if (rc) goto xout; rc = add_connpt_2(model, y, x, pf("SHIFTOUT%i_OLOGIC_SITE", i), "", "_S", dup_warn); if (rc) goto xout; } for (i = 0; i <= 1; i++) { rc = add_connpt_2(model, y, x, pf("CFB%i_ILOGIC_SITE", i), "", "_S", dup_warn); if (rc) goto xout; rc = add_connpt_2(model, y, x, pf("CLK%i_ILOGIC_SITE", i), "", "_S", dup_warn); if (rc) goto xout; rc = add_connpt_2(model, y, x, pf("CLK%i_OLOGIC_SITE", i), "", "_S", dup_warn); if (rc) goto xout; } { static const char* mcb_2[] = { "BITSLIP_ILOGIC_SITE", "BUSY_IODELAY_SITE", "CAL_IODELAY_SITE", "CE0_ILOGIC_SITE", "CE_IODELAY_SITE", "CIN_IODELAY_SITE", "CLKDIV_ILOGIC_SITE", "CLKDIV_OLOGIC_SITE", "CLK_IODELAY_SITE", "DATAOUT_IODELAY_SITE", "DDLY2_ILOGIC_SITE", "DDLY_ILOGIC_SITE", "DFB_ILOGIC_SITE", "D_ILOGIC_IDATAIN_IODELAY", "D_ILOGIC_SITE", "DOUT_IODELAY_SITE", "FABRICOUT_ILOGIC_SITE", "IDATAIN_IODELAY_SITE", "INCDEC_ILOGIC_SITE", "INC_IODELAY_SITE", "IOCE_ILOGIC_SITE", "IOCE_OLOGIC_SITE", "IOCLK1_IODELAY_SITE", "IOCLK_IODELAY_SITE", "LOAD_IODELAY_SITE", "OCE_OLOGIC_SITE", "ODATAIN_IODELAY_SITE", "OFB_ILOGIC_SITE", "OQ_OLOGIC_SITE", "RCLK_IODELAY_SITE", "READEN_IODELAY_UNUSED_SITE", "REV_ILOGIC_SITE", "REV_OLOGIC_SITE", "RST_IODELAY_SITE", "SHIFTIN_ILOGIC_SITE", "SHIFTOUT_ILOGIC_SITE", "SR_ILOGIC_SITE", "SR_OLOGIC_SITE", "TCE_OLOGIC_SITE", "TFB_ILOGIC_SITE", "T_IODELAY_SITE", "TOUT_IODELAY_SITE", "TQ_OLOGIC_SITE", "TRAIN_OLOGIC_SITE", "VALID_ILOGIC_SITE", "" }; for (i = 0; mcb_2[i][0]; i++) { rc = add_connpt_2(model, y, x, mcb_2[i], "", "_S", dup_warn); } } rc = add_connpt_name(model, y, x, "DATAOUT2_IODELAY_SITE", dup_warn, 0, 0); if (rc) goto xout; rc = add_connpt_name(model, y, x, "DATAOUT2_IODELAY2_SITE_S", dup_warn, 0, 0); if (rc) goto xout; for (i = 0; i <= 2; i++) { rc = add_connpt_2(model, y, x, pf("IOI_CLK%iINTER", i), "_M", "_S", dup_warn); if (rc) goto xout; } for (i = 0; i <= 1; i++) { rc = add_connpt_2(model, y, x, pf("IOI_CLKDIST_IOCE%i", i), "_M", "_S", dup_warn); if (rc) goto xout; } rc = add_connpt_2(model, y, x, "IOI_CLKDIST_CLK0_ILOGIC", "_M", "_S", dup_warn); if (rc) goto xout; rc = add_connpt_2(model, y, x, "IOI_CLKDIST_CLK0_OLOGIC", "_M", "_S", dup_warn); if (rc) goto xout; rc = add_connpt_2(model, y, x, "IOI_CLKDIST_CLK1", "_M", "_S", dup_warn); if (rc) goto xout; if (side == TOP_S || side == BOTTOM_S) { static const char* mcb_2[] = { "IOI_MCB_DQIEN", "IOI_MCB_INBYP", "IOI_MCB_IN", "IOI_MCB_OUTN", "IOI_MCB_OUTP", "" }; static const char* mcb_1[] = { "IOI_MCB_DRPADD", "IOI_MCB_DRPBROADCAST", "IOI_MCB_DRPCLK", "IOI_MCB_DRPCS", "IOI_MCB_DRPSDI", "IOI_MCB_DRPSDO", "IOI_MCB_DRPTRAIN", "" }; for (i = 0; mcb_2[i][0]; i++) { rc = add_connpt_2(model, y, x, mcb_2[i], "_M", "_S", dup_warn); if (rc) goto xout; } for (i = 0; mcb_1[i][0]; i++) { rc = add_connpt_name(model, y, x, mcb_1[i], dup_warn, 0, 0); if (rc) goto xout; } } return 0; xout: return rc; } int init_ports(struct fpga_model* model, int dup_warn) { int x, y, i, j, k, row_num, row_pos, rc; // inner and outer IO tiles (ILOGIC/ILOGIC/IODELAY) for (x = LEFT_SIDE_WIDTH; x < model->x_width - RIGHT_SIDE_WIDTH; x++) { if (has_device(model, TOP_OUTER_IO, x, DEV_ILOGIC)) { rc = init_iologic_ports(model, TOP_OUTER_IO, x, TOP_S, dup_warn); if (rc) goto xout; } if (has_device(model, TOP_INNER_IO, x, DEV_ILOGIC)) { rc = init_iologic_ports(model, TOP_INNER_IO, x, TOP_S, dup_warn); if (rc) goto xout; } if (has_device(model, model->y_height - BOT_INNER_IO, x, DEV_ILOGIC)) { rc = init_iologic_ports(model, model->y_height - BOT_INNER_IO, x, BOTTOM_S, dup_warn); if (rc) goto xout; } if (has_device(model, model->y_height - BOT_OUTER_IO, x, DEV_ILOGIC)) { rc = init_iologic_ports(model, model->y_height - BOT_OUTER_IO, x, BOTTOM_S, dup_warn); if (rc) goto xout; } } for (y = TOP_IO_TILES; y < model->y_height - BOT_IO_TILES; y++) { if (has_device(model, y, LEFT_IO_DEVS, DEV_ILOGIC)) { rc = init_iologic_ports(model, y, LEFT_IO_DEVS, LEFT_S, dup_warn); if (rc) goto xout; } if (has_device(model, y, model->x_width - RIGHT_IO_DEVS_O, DEV_ILOGIC)) { rc = init_iologic_ports(model, y, model->x_width - RIGHT_IO_DEVS_O, RIGHT_S, dup_warn); if (rc) goto xout; } } for (x = 0; x < model->x_width; x++) { // VCC, GND and fans if (is_atx(X_ROUTING_COL, model, x)) { for (y = TOP_IO_TILES; y < model->y_height - BOT_IO_TILES; y++) { if (is_aty(Y_ROW_HORIZ_AXSYMM|Y_CHIP_HORIZ_REGS, model, y)) continue; rc = add_connpt_name(model, y, x, "VCC_WIRE", dup_warn, 0, 0); if (rc) goto xout; rc = add_connpt_name(model, y, x, "GND_WIRE", dup_warn, 0, 0); if (rc) goto xout; rc = add_connpt_name(model, y, x, "KEEP1_WIRE", dup_warn, 0, 0); if (rc) goto xout; rc = add_connpt_name(model, y, x, "FAN", dup_warn, 0, 0); if (rc) goto xout; rc = add_connpt_name(model, y, x, "FAN_B", dup_warn, 0, 0); if (rc) goto xout; if (!is_atyx(YX_IO_ROUTING, model, y, x)) { for (i = 0; i <= 1; i++) { rc = add_connpt_name(model, y, x, pf("GFAN%i", i), dup_warn, 0, 0); if (rc) goto xout; } } else { if (!is_atx(X_CENTER_ROUTING_COL, model, x) || is_aty(Y_TOPBOT_IO_RANGE, model, y)) { // In the center those 2 wires are connected // to the PLL, but elsewhere? Not clear what they // connect to... rc = add_connpt_name(model, y, x, logicin_s(X_A5, 1 /* routing_io */), dup_warn, 0, 0); if (rc) goto xout; rc = add_connpt_name(model, y, x, logicin_s(X_B4, 1 /* routing_io */), dup_warn, 0, 0); if (rc) goto xout; } } } } // logicin if (is_atx(X_FABRIC_LOGIC_XL_ROUTING_COL |X_CENTER_ROUTING_COL, model, x)) { for (y = TOP_IO_TILES; y < model->y_height - BOT_IO_TILES; y++) { static const int n[] = { 36, 44, 53, 61, 62 }; if (is_aty(Y_TOPBOT_IO_RANGE, model, y) && !is_atx(X_ROUTING_NO_IO, model, x)) continue; if (is_aty(Y_ROW_HORIZ_AXSYMM|Y_CHIP_HORIZ_REGS, model, y)) continue; if (is_atx(X_CENTER_ROUTING_COL, model, x) && (is_aty(Y_ROW_HORIZ_AXSYMM|Y_CHIP_HORIZ_REGS, model, y+1) || is_aty(Y_ROW_HORIZ_AXSYMM, model, y-1))) continue; for (i = 0; i < sizeof(n)/sizeof(*n); i++) { rc = add_connpt_name(model, y, x, pf("LOGICIN_B%i", n[i]), dup_warn, 0, 0); if (rc) goto xout; } } } // bram if (is_atx(X_FABRIC_BRAM_COL, model, x)) { for (y = TOP_IO_TILES; y < model->y_height - BOT_IO_TILES; y++) { if (YX_TILE(model, y, x)->flags & TF_BRAM_DEV) { static const char* pass_str[3] = {"RAMB16BWER", "RAMB8BWER_0", "RAMB8BWER_1"}; // pass 0 is ramb16, pass 1 and 2 are for ramb8 for (i = 0; i <= 2; i++) { for (j = 'A'; j <= 'B'; j++) { rc = add_connpt_name(model, y, x, pf("%s_CLK%c", pass_str[i], j), dup_warn, 0, 0); if (rc) goto xout; rc = add_connpt_name(model, y, x, pf("%s_EN%c", pass_str[i], j), dup_warn, 0, 0); if (rc) goto xout; rc = add_connpt_name(model, y, x, pf("%s_REGCE%c", pass_str[i], j), dup_warn, 0, 0); if (rc) goto xout; rc = add_connpt_name(model, y, x, pf("%s_RST%c", pass_str[i], j), dup_warn, 0, 0); if (rc) goto xout; for (k = 0; k <= (!i ? 3 : 1); k++) { rc = add_connpt_name(model, y, x, pf("%s_DIP%c%i", pass_str[i], j, k), dup_warn, 0, 0); if (rc) goto xout; rc = add_connpt_name(model, y, x, pf("%s_DOP%c%i", pass_str[i], j, k), dup_warn, 0, 0); if (rc) goto xout; rc = add_connpt_name(model, y, x, pf("%s_WE%c%i", pass_str[i], j, k), dup_warn, 0, 0); if (rc) goto xout; } for (k = 0; k <= (!i ? 13 : 12); k++) { rc = add_connpt_name(model, y, x, pf("%s_ADDR%c%i", pass_str[i], j, k), dup_warn, 0, 0); if (rc) goto xout; } for (k = 0; k <= (!i ? 31 : 15); k++) { rc = add_connpt_name(model, y, x, pf("%s_DI%c%i", pass_str[i], j, k), dup_warn, 0, 0); if (rc) goto xout; rc = add_connpt_name(model, y, x, pf("%s_DO%c%i", pass_str[i], j, k), dup_warn, 0, 0); if (rc) goto xout; } } } } } } // macc if (is_atx(X_FABRIC_MACC_COL, model, x)) { for (y = TOP_IO_TILES; y < model->y_height - BOT_IO_TILES; y++) { if (YX_TILE(model, y, x)->flags & TF_MACC_DEV) { static const char* pref[] = {"CE", "RST", ""}; static const char* seq[] = {"A", "B", "C", "D", "M", "P", "OPMODE", ""}; is_in_row(model, y, &row_num, &row_pos); if (!row_num && row_pos == LAST_POS_IN_ROW) { rc = add_connpt_name(model, y, x, "CARRYIN_DSP48A1_SITE", dup_warn, 0, 0); if (rc) goto xout; for (i = 0; i <= 47; i++) { rc = add_connpt_name(model, y, x, pf("PCIN%i_DSP48A1_SITE", i), dup_warn, 0, 0); if (rc) goto xout; } } rc = add_connpt_name(model, y, x, "CLK_DSP48A1_SITE", dup_warn, 0, 0); if (rc) goto xout; rc = add_connpt_name(model, y, x, "CARRYOUT_DSP48A1_SITE", dup_warn, 0, 0); if (rc) goto xout; rc = add_connpt_name(model, y, x, "CARRYOUTF_DSP48A1_SITE", dup_warn, 0, 0); if (rc) goto xout; for (i = 0; pref[i][0]; i++) { rc = add_connpt_name(model, y, x, pf("%sCARRYIN_DSP48A1_SITE", pref[i]), dup_warn, 0, 0); if (rc) goto xout; for (j = 0; seq[j][0]; j++) { rc = add_connpt_name(model, y, x, pf("%s%s_DSP48A1_SITE", pref[i], seq[j]), dup_warn, 0, 0); if (rc) goto xout; } } for (i = 0; i <= 17; i++) { rc = add_connpt_name(model, y, x, pf("A%i_DSP48A1_SITE", i), dup_warn, 0, 0); if (rc) goto xout; rc = add_connpt_name(model, y, x, pf("B%i_DSP48A1_SITE", i), dup_warn, 0, 0); if (rc) goto xout; rc = add_connpt_name(model, y, x, pf("D%i_DSP48A1_SITE", i), dup_warn, 0, 0); if (rc) goto xout; rc = add_connpt_name(model, y, x, pf("BCOUT%i_DSP48A1_SITE", i), dup_warn, 0, 0); if (rc) goto xout; } for (i = 0; i <= 47; i++) { rc = add_connpt_name(model, y, x, pf("C%i_DSP48A1_SITE", i), dup_warn, 0, 0); if (rc) goto xout; rc = add_connpt_name(model, y, x, pf("P%i_DSP48A1_SITE", i), dup_warn, 0, 0); if (rc) goto xout; rc = add_connpt_name(model, y, x, pf("PCOUT%i_DSP48A1_SITE", i), dup_warn, 0, 0); if (rc) goto xout; } for (i = 0; i <= 35; i++) { rc = add_connpt_name(model, y, x, pf("M%i_DSP48A1_SITE", i), dup_warn, 0, 0); if (rc) goto xout; } for (i = 0; i <= 7; i++) { rc = add_connpt_name(model, y, x, pf("OPMODE%i_DSP48A1_SITE", i), dup_warn, 0, 0); if (rc) goto xout; } } } } } return 0; xout: return rc; }