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authorRuben Undheim <ruben.undheim@gmail.com>2018-08-30 20:46:20 +0200
committerRuben Undheim <ruben.undheim@gmail.com>2018-08-30 20:46:20 +0200
commit5033b51947a6ef02cb785b5622e993335efa750a (patch)
tree7bed18c526bd94917fa2f08e3df12209863698a1 /techlibs/intel/common
parentfefe0fc0430f4f173a25e674708aa0f4f0854b31 (diff)
New upstream version 0.7+20180830git0b7a184
Diffstat (limited to 'techlibs/intel/common')
-rw-r--r--techlibs/intel/common/altpll_bb.v366
-rw-r--r--techlibs/intel/common/brams.txt33
-rw-r--r--techlibs/intel/common/brams_map.v93
-rw-r--r--techlibs/intel/common/m9k_bb.v70
4 files changed, 562 insertions, 0 deletions
diff --git a/techlibs/intel/common/altpll_bb.v b/techlibs/intel/common/altpll_bb.v
new file mode 100644
index 00000000..d2e6a364
--- /dev/null
+++ b/techlibs/intel/common/altpll_bb.v
@@ -0,0 +1,366 @@
+/*
+ * yosys -- Yosys Open SYnthesis Suite
+ *
+ * Copyright (C) 2012 Clifford Wolf <clifford@clifford.at>
+ *
+ * Permission to use, copy, modify, and/or distribute this software for any
+ * purpose with or without fee is hereby granted, provided that the above
+ * copyright notice and this permission notice appear in all copies.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
+ * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
+ * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
+ * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
+ * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
+ * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
+ * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
+ *
+ */
+/* No clearbox model */
+`ifdef NO_CLEARBOX
+(* blackbox *)
+module altpll
+ ( inclk,
+ fbin,
+ pllena,
+ clkswitch,
+ areset,
+ pfdena,
+ clkena,
+ extclkena,
+ scanclk,
+ scanaclr,
+ scanclkena,
+ scanread,
+ scanwrite,
+ scandata,
+ phasecounterselect,
+ phaseupdown,
+ phasestep,
+ configupdate,
+ fbmimicbidir,
+ clk,
+ extclk,
+ clkbad,
+ enable0,
+ enable1,
+ activeclock,
+ clkloss,
+ locked,
+ scandataout,
+ scandone,
+ sclkout0,
+ sclkout1,
+ phasedone,
+ vcooverrange,
+ vcounderrange,
+ fbout,
+ fref,
+ icdrclk,
+ c0,
+ c1,
+ c2,
+ c3,
+ c4);
+
+ parameter intended_device_family = "MAX 10";
+ parameter operation_mode = "NORMAL";
+ parameter pll_type = "AUTO";
+ parameter qualify_conf_done = "OFF";
+ parameter compensate_clock = "CLK0";
+ parameter scan_chain = "LONG";
+ parameter primary_clock = "inclk0";
+ parameter inclk0_input_frequency = 1000;
+ parameter inclk1_input_frequency = 0;
+ parameter gate_lock_signal = "NO";
+ parameter gate_lock_counter = 0;
+ parameter lock_high = 1;
+ parameter lock_low = 0;
+ parameter valid_lock_multiplier = 1;
+ parameter invalid_lock_multiplier = 5;
+ parameter switch_over_type = "AUTO";
+ parameter switch_over_on_lossclk = "OFF" ;
+ parameter switch_over_on_gated_lock = "OFF" ;
+ parameter enable_switch_over_counter = "OFF";
+ parameter switch_over_counter = 0;
+ parameter feedback_source = "EXTCLK0" ;
+ parameter bandwidth = 0;
+ parameter bandwidth_type = "UNUSED";
+ parameter lpm_hint = "UNUSED";
+ parameter spread_frequency = 0;
+ parameter down_spread = "0.0";
+ parameter self_reset_on_gated_loss_lock = "OFF";
+ parameter self_reset_on_loss_lock = "OFF";
+ parameter lock_window_ui = "0.05";
+ parameter width_clock = 6;
+ parameter width_phasecounterselect = 4;
+ parameter charge_pump_current_bits = 9999;
+ parameter loop_filter_c_bits = 9999;
+ parameter loop_filter_r_bits = 9999;
+ parameter scan_chain_mif_file = "UNUSED";
+ parameter clk9_multiply_by = 1;
+ parameter clk8_multiply_by = 1;
+ parameter clk7_multiply_by = 1;
+ parameter clk6_multiply_by = 1;
+ parameter clk5_multiply_by = 1;
+ parameter clk4_multiply_by = 1;
+ parameter clk3_multiply_by = 1;
+ parameter clk2_multiply_by = 1;
+ parameter clk1_multiply_by = 1;
+ parameter clk0_multiply_by = 1;
+ parameter clk9_divide_by = 1;
+ parameter clk8_divide_by = 1;
+ parameter clk7_divide_by = 1;
+ parameter clk6_divide_by = 1;
+ parameter clk5_divide_by = 1;
+ parameter clk4_divide_by = 1;
+ parameter clk3_divide_by = 1;
+ parameter clk2_divide_by = 1;
+ parameter clk1_divide_by = 1;
+ parameter clk0_divide_by = 1;
+ parameter clk9_phase_shift = "0";
+ parameter clk8_phase_shift = "0";
+ parameter clk7_phase_shift = "0";
+ parameter clk6_phase_shift = "0";
+ parameter clk5_phase_shift = "0";
+ parameter clk4_phase_shift = "0";
+ parameter clk3_phase_shift = "0";
+ parameter clk2_phase_shift = "0";
+ parameter clk1_phase_shift = "0";
+ parameter clk0_phase_shift = "0";
+
+ parameter clk9_duty_cycle = 50;
+ parameter clk8_duty_cycle = 50;
+ parameter clk7_duty_cycle = 50;
+ parameter clk6_duty_cycle = 50;
+ parameter clk5_duty_cycle = 50;
+ parameter clk4_duty_cycle = 50;
+ parameter clk3_duty_cycle = 50;
+ parameter clk2_duty_cycle = 50;
+ parameter clk1_duty_cycle = 50;
+ parameter clk0_duty_cycle = 50;
+
+ parameter clk9_use_even_counter_mode = "OFF";
+ parameter clk8_use_even_counter_mode = "OFF";
+ parameter clk7_use_even_counter_mode = "OFF";
+ parameter clk6_use_even_counter_mode = "OFF";
+ parameter clk5_use_even_counter_mode = "OFF";
+ parameter clk4_use_even_counter_mode = "OFF";
+ parameter clk3_use_even_counter_mode = "OFF";
+ parameter clk2_use_even_counter_mode = "OFF";
+ parameter clk1_use_even_counter_mode = "OFF";
+ parameter clk0_use_even_counter_mode = "OFF";
+ parameter clk9_use_even_counter_value = "OFF";
+ parameter clk8_use_even_counter_value = "OFF";
+ parameter clk7_use_even_counter_value = "OFF";
+ parameter clk6_use_even_counter_value = "OFF";
+ parameter clk5_use_even_counter_value = "OFF";
+ parameter clk4_use_even_counter_value = "OFF";
+ parameter clk3_use_even_counter_value = "OFF";
+ parameter clk2_use_even_counter_value = "OFF";
+ parameter clk1_use_even_counter_value = "OFF";
+ parameter clk0_use_even_counter_value = "OFF";
+
+ parameter clk2_output_frequency = 0;
+ parameter clk1_output_frequency = 0;
+ parameter clk0_output_frequency = 0;
+
+ parameter vco_min = 0;
+ parameter vco_max = 0;
+ parameter vco_center = 0;
+ parameter pfd_min = 0;
+ parameter pfd_max = 0;
+ parameter m_initial = 1;
+ parameter m = 0;
+ parameter n = 1;
+ parameter m2 = 1;
+ parameter n2 = 1;
+ parameter ss = 0;
+ parameter l0_high = 1;
+ parameter l1_high = 1;
+ parameter g0_high = 1;
+ parameter g1_high = 1;
+ parameter g2_high = 1;
+ parameter g3_high = 1;
+ parameter e0_high = 1;
+ parameter e1_high = 1;
+ parameter e2_high = 1;
+ parameter e3_high = 1;
+ parameter l0_low = 1;
+ parameter l1_low = 1;
+ parameter g0_low = 1;
+ parameter g1_low = 1;
+ parameter g2_low = 1;
+ parameter g3_low = 1;
+ parameter e0_low = 1;
+ parameter e1_low = 1;
+ parameter e2_low = 1;
+ parameter e3_low = 1;
+ parameter l0_initial = 1;
+ parameter l1_initial = 1;
+ parameter g0_initial = 1;
+ parameter g1_initial = 1;
+ parameter g2_initial = 1;
+ parameter g3_initial = 1;
+ parameter e0_initial = 1;
+ parameter e1_initial = 1;
+ parameter e2_initial = 1;
+ parameter e3_initial = 1;
+ parameter l0_mode = "bypass";
+ parameter l1_mode = "bypass";
+ parameter g0_mode = "bypass";
+ parameter g1_mode = "bypass";
+ parameter g2_mode = "bypass";
+ parameter g3_mode = "bypass";
+ parameter e0_mode = "bypass";
+ parameter e1_mode = "bypass";
+ parameter e2_mode = "bypass";
+ parameter e3_mode = "bypass";
+ parameter l0_ph = 0;
+ parameter l1_ph = 0;
+ parameter g0_ph = 0;
+ parameter g1_ph = 0;
+ parameter g2_ph = 0;
+ parameter g3_ph = 0;
+ parameter e0_ph = 0;
+ parameter e1_ph = 0;
+ parameter e2_ph = 0;
+ parameter e3_ph = 0;
+ parameter m_ph = 0;
+ parameter l0_time_delay = 0;
+ parameter l1_time_delay = 0;
+ parameter g0_time_delay = 0;
+ parameter g1_time_delay = 0;
+ parameter g2_time_delay = 0;
+ parameter g3_time_delay = 0;
+ parameter e0_time_delay = 0;
+ parameter e1_time_delay = 0;
+ parameter e2_time_delay = 0;
+ parameter e3_time_delay = 0;
+ parameter m_time_delay = 0;
+ parameter n_time_delay = 0;
+ parameter extclk3_counter = "e3" ;
+ parameter extclk2_counter = "e2" ;
+ parameter extclk1_counter = "e1" ;
+ parameter extclk0_counter = "e0" ;
+ parameter clk9_counter = "c9" ;
+ parameter clk8_counter = "c8" ;
+ parameter clk7_counter = "c7" ;
+ parameter clk6_counter = "c6" ;
+ parameter clk5_counter = "l1" ;
+ parameter clk4_counter = "l0" ;
+ parameter clk3_counter = "g3" ;
+ parameter clk2_counter = "g2" ;
+ parameter clk1_counter = "g1" ;
+ parameter clk0_counter = "g0" ;
+ parameter enable0_counter = "l0";
+ parameter enable1_counter = "l0";
+ parameter charge_pump_current = 2;
+ parameter loop_filter_r = "1.0";
+ parameter loop_filter_c = 5;
+ parameter vco_post_scale = 0;
+ parameter vco_frequency_control = "AUTO";
+ parameter vco_phase_shift_step = 0;
+ parameter lpm_type = "altpll";
+
+ parameter port_clkena0 = "PORT_CONNECTIVITY";
+ parameter port_clkena1 = "PORT_CONNECTIVITY";
+ parameter port_clkena2 = "PORT_CONNECTIVITY";
+ parameter port_clkena3 = "PORT_CONNECTIVITY";
+ parameter port_clkena4 = "PORT_CONNECTIVITY";
+ parameter port_clkena5 = "PORT_CONNECTIVITY";
+ parameter port_extclkena0 = "PORT_CONNECTIVITY";
+ parameter port_extclkena1 = "PORT_CONNECTIVITY";
+ parameter port_extclkena2 = "PORT_CONNECTIVITY";
+ parameter port_extclkena3 = "PORT_CONNECTIVITY";
+ parameter port_extclk0 = "PORT_CONNECTIVITY";
+ parameter port_extclk1 = "PORT_CONNECTIVITY";
+ parameter port_extclk2 = "PORT_CONNECTIVITY";
+ parameter port_extclk3 = "PORT_CONNECTIVITY";
+ parameter port_clk0 = "PORT_CONNECTIVITY";
+ parameter port_clk1 = "PORT_CONNECTIVITY";
+ parameter port_clk2 = "PORT_CONNECTIVITY";
+ parameter port_clk3 = "PORT_CONNECTIVITY";
+ parameter port_clk4 = "PORT_CONNECTIVITY";
+ parameter port_clk5 = "PORT_CONNECTIVITY";
+ parameter port_clk6 = "PORT_CONNECTIVITY";
+ parameter port_clk7 = "PORT_CONNECTIVITY";
+ parameter port_clk8 = "PORT_CONNECTIVITY";
+ parameter port_clk9 = "PORT_CONNECTIVITY";
+ parameter port_scandata = "PORT_CONNECTIVITY";
+ parameter port_scandataout = "PORT_CONNECTIVITY";
+ parameter port_scandone = "PORT_CONNECTIVITY";
+ parameter port_sclkout1 = "PORT_CONNECTIVITY";
+ parameter port_sclkout0 = "PORT_CONNECTIVITY";
+ parameter port_clkbad0 = "PORT_CONNECTIVITY";
+ parameter port_clkbad1 = "PORT_CONNECTIVITY";
+ parameter port_activeclock = "PORT_CONNECTIVITY";
+ parameter port_clkloss = "PORT_CONNECTIVITY";
+ parameter port_inclk1 = "PORT_CONNECTIVITY";
+ parameter port_inclk0 = "PORT_CONNECTIVITY";
+ parameter port_fbin = "PORT_CONNECTIVITY";
+ parameter port_fbout = "PORT_CONNECTIVITY";
+ parameter port_pllena = "PORT_CONNECTIVITY";
+ parameter port_clkswitch = "PORT_CONNECTIVITY";
+ parameter port_areset = "PORT_CONNECTIVITY";
+ parameter port_pfdena = "PORT_CONNECTIVITY";
+ parameter port_scanclk = "PORT_CONNECTIVITY";
+ parameter port_scanaclr = "PORT_CONNECTIVITY";
+ parameter port_scanread = "PORT_CONNECTIVITY";
+ parameter port_scanwrite = "PORT_CONNECTIVITY";
+ parameter port_enable0 = "PORT_CONNECTIVITY";
+ parameter port_enable1 = "PORT_CONNECTIVITY";
+ parameter port_locked = "PORT_CONNECTIVITY";
+ parameter port_configupdate = "PORT_CONNECTIVITY";
+ parameter port_phasecounterselect = "PORT_CONNECTIVITY";
+ parameter port_phasedone = "PORT_CONNECTIVITY";
+ parameter port_phasestep = "PORT_CONNECTIVITY";
+ parameter port_phaseupdown = "PORT_CONNECTIVITY";
+ parameter port_vcooverrange = "PORT_CONNECTIVITY";
+ parameter port_vcounderrange = "PORT_CONNECTIVITY";
+ parameter port_scanclkena = "PORT_CONNECTIVITY";
+ parameter using_fbmimicbidir_port = "ON";
+
+ input [1:0] inclk;
+ input fbin;
+ input pllena;
+ input clkswitch;
+ input areset;
+ input pfdena;
+ input clkena;
+ input extclkena;
+ input scanclk;
+ input scanaclr;
+ input scanclkena;
+ input scanread;
+ input scanwrite;
+ input scandata;
+ input phasecounterselect;
+ input phaseupdown;
+ input phasestep;
+ input configupdate;
+ inout fbmimicbidir;
+
+
+ output [width_clock-1:0] clk;
+ output [3:0] extclk;
+ output [1:0] clkbad;
+ output enable0;
+ output enable1;
+ output activeclock;
+ output clkloss;
+ output locked;
+ output scandataout;
+ output scandone;
+ output sclkout0;
+ output sclkout1;
+ output phasedone;
+ output vcooverrange;
+ output vcounderrange;
+ output fbout;
+ output fref;
+ output icdrclk;
+ output c0, c1, c2, c3, c4;
+
+endmodule // altpll
+`endif
diff --git a/techlibs/intel/common/brams.txt b/techlibs/intel/common/brams.txt
new file mode 100644
index 00000000..3bf21afc
--- /dev/null
+++ b/techlibs/intel/common/brams.txt
@@ -0,0 +1,33 @@
+bram $__M9K_ALTSYNCRAM_SINGLEPORT_FULL
+ init 1
+ abits 13 @M1
+ dbits 1 @M1
+ abits 12 @M2
+ dbits 2 @M2
+ abits 11 @M3
+ dbits 4 @M3
+ abits 10 @M4
+ dbits 8 @M4
+ abits 10 @M5
+ dbits 9 @M5
+ abits 9 @M6
+ dbits 16 @M6
+ abits 9 @M7
+ dbits 18 @M7
+ abits 8 @M8
+ dbits 32 @M8
+ abits 8 @M9
+ dbits 36 @M9
+ groups 2
+ ports 1 1
+ wrmode 0 1
+ enable 1 1
+ transp 0 0
+ clocks 2 3
+ clkpol 2 3
+endbram
+
+match $__M9K_ALTSYNCRAM_SINGLEPORT_FULL
+ min efficiency 2
+ make_transp
+endmatch
diff --git a/techlibs/intel/common/brams_map.v b/techlibs/intel/common/brams_map.v
new file mode 100644
index 00000000..fae4af2a
--- /dev/null
+++ b/techlibs/intel/common/brams_map.v
@@ -0,0 +1,93 @@
+module \$__M9K_ALTSYNCRAM_SINGLEPORT_FULL (CLK2, CLK3, A1ADDR, A1DATA, A1EN, B1ADDR, B1DATA, B1EN);
+
+ parameter CFG_ABITS = 8;
+ parameter CFG_DBITS = 36;
+ parameter ABITS = "1";
+ parameter DBITS = "1";
+ parameter CLKPOL2 = 1;
+ parameter CLKPOL3 = 1;
+
+ input CLK2;
+ input CLK3;
+ //Read data
+ output [CFG_DBITS-1:0] A1DATA;
+ input [CFG_ABITS-1:0] A1ADDR;
+ input A1EN;
+ //Write data
+ output [CFG_DBITS-1:0] B1DATA;
+ input [CFG_ABITS-1:0] B1ADDR;
+ input B1EN;
+
+ wire [CFG_DBITS-1:0] B1DATA_t;
+
+ localparam MODE = CFG_DBITS == 1 ? 1:
+ CFG_DBITS == 2 ? 2:
+ CFG_DBITS == 4 ? 3:
+ CFG_DBITS == 8 ? 4:
+ CFG_DBITS == 9 ? 5:
+ CFG_DBITS == 16 ? 6:
+ CFG_DBITS == 18 ? 7:
+ CFG_DBITS == 32 ? 8:
+ CFG_DBITS == 36 ? 9:
+ 'bx;
+
+ localparam NUMWORDS = CFG_DBITS == 1 ? 8192:
+ CFG_DBITS == 2 ? 4096:
+ CFG_DBITS == 4 ? 2048:
+ CFG_DBITS == 8 ? 1024:
+ CFG_DBITS == 9 ? 1024:
+ CFG_DBITS == 16 ? 512:
+ CFG_DBITS == 18 ? 512:
+ CFG_DBITS == 32 ? 256:
+ CFG_DBITS == 36 ? 256:
+ 'bx;
+
+ altsyncram #(.clock_enable_input_b ("ALTERNATE" ),
+ .clock_enable_input_a ("ALTERNATE" ),
+ .clock_enable_output_b ("NORMAL" ),
+ .clock_enable_output_a ("NORMAL" ),
+ .wrcontrol_aclr_a ("NONE" ),
+ .indata_aclr_a ("NONE" ),
+ .address_aclr_a ("NONE" ),
+ .outdata_aclr_a ("NONE" ),
+ .outdata_reg_a ("UNREGISTERED"),
+ .operation_mode ("SINGLE_PORT" ),
+ .intended_device_family ("CYCLONE IVE" ),
+ .outdata_reg_a ("UNREGISTERED"),
+ .lpm_type ("altsyncram" ),
+ .init_type ("unused" ),
+ .ram_block_type ("AUTO" ),
+ .lpm_hint ("ENABLE_RUNTIME_MOD=NO"), // Forced value
+ .power_up_uninitialized ("FALSE"),
+ .read_during_write_mode_port_a ("NEW_DATA_NO_NBE_READ"), // Forced value
+ .width_byteena_a (1), // Forced value
+ .numwords_b ( NUMWORDS ),
+ .numwords_a ( NUMWORDS ),
+ .widthad_b ( CFG_ABITS ),
+ .width_b ( CFG_DBITS ),
+ .widthad_a ( CFG_ABITS ),
+ .width_a ( CFG_DBITS )
+ ) _TECHMAP_REPLACE_ (
+ .data_a(B1DATA),
+ .address_a(B1ADDR),
+ .wren_a(B1EN),
+ .rden_a(A1EN),
+ .q_a(A1DATA),
+ .data_b(1'b0),
+ .address_b(0),
+ .wren_b(1'b0),
+ .rden_b(1'b0),
+ .q_b(1'b0),
+ .clock0(CLK2),
+ .clock1(1'b1), // Unused in single port mode
+ .clocken0(1'b1),
+ .clocken1(1'b1),
+ .clocken2(1'b1),
+ .clocken3(1'b1),
+ .aclr0(1'b0),
+ .aclr1(1'b0),
+ .addressstall_a(1'b0),
+ .addressstall_b(1'b0));
+
+endmodule
+
diff --git a/techlibs/intel/common/m9k_bb.v b/techlibs/intel/common/m9k_bb.v
new file mode 100644
index 00000000..b18a752f
--- /dev/null
+++ b/techlibs/intel/common/m9k_bb.v
@@ -0,0 +1,70 @@
+/*
+ * yosys -- Yosys Open SYnthesis Suite
+ *
+ * Copyright (C) 2012 Clifford Wolf <clifford@clifford.at>
+ *
+ * Permission to use, copy, modify, and/or distribute this software for any
+ * purpose with or without fee is hereby granted, provided that the above
+ * copyright notice and this permission notice appear in all copies.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
+ * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
+ * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
+ * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
+ * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
+ * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
+ * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
+ *
+ */
+(* blackbox *)
+module altsyncram(data_a, address_a, wren_a, rden_a, q_a, data_b, address_b, wren_b, rden_b,
+ q_b, clock0, clock1, clocken0, clocken1, clocken2, clocken3, aclr0, aclr1,
+ addressstall_a, addressstall_b);
+
+ parameter clock_enable_input_b = "ALTERNATE";
+ parameter clock_enable_input_a = "ALTERNATE";
+ parameter clock_enable_output_b = "NORMAL";
+ parameter clock_enable_output_a = "NORMAL";
+ parameter wrcontrol_aclr_a = "NONE";
+ parameter indata_aclr_a = "NONE";
+ parameter address_aclr_a = "NONE";
+ parameter outdata_aclr_a = "NONE";
+ parameter outdata_reg_a = "UNREGISTERED";
+ parameter operation_mode = "SINGLE_PORT";
+ parameter intended_device_family = "MAX 10 FPGA";
+ parameter outdata_reg_a = "UNREGISTERED";
+ parameter lpm_type = "altsyncram";
+ parameter init_type = "unused";
+ parameter ram_block_type = "AUTO";
+ parameter lpm_hint = "ENABLE_RUNTIME_MOD=NO";
+ parameter power_up_uninitialized = "FALSE";
+ parameter read_during_write_mode_port_a = "NEW_DATA_NO_NBE_READ";
+ parameter width_byteena_a = 1;
+ parameter numwords_b = 0;
+ parameter numwords_a = 0;
+ parameter widthad_b = 1;
+ parameter width_b = 1;
+ parameter widthad_a = 1;
+ parameter width_a = 1;
+
+ // Port A declarations
+ output [35:0] q_a;
+ input [35:0] data_a;
+ input [7:0] address_a;
+ input wren_a;
+ input rden_a;
+ // Port B declarations
+ output [35:0] q_b;
+ input [35:0] data_b;
+ input [7:0] address_b;
+ input wren_b;
+ input rden_b;
+ // Control signals
+ input clock0, clock1;
+ input clocken0, clocken1, clocken2, clocken3;
+ input aclr0, aclr1;
+ input addressstall_a;
+ input addressstall_b;
+ // TODO: Implement the correct simulation model
+
+endmodule // altsyncram