📄 first_nios2_system.v
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assign cpu_jtag_debug_module_any_continuerequest = cpu_instruction_master_continuerequest |
cpu_data_master_continuerequest;
assign cpu_data_master_qualified_request_cpu_jtag_debug_module = cpu_data_master_requests_cpu_jtag_debug_module & ~(cpu_instruction_master_arbiterlock);
//cpu_jtag_debug_module_writedata mux, which is an e_mux
assign cpu_jtag_debug_module_writedata = cpu_data_master_writedata;
//mux cpu_jtag_debug_module_debugaccess, which is an e_mux
assign cpu_jtag_debug_module_debugaccess = cpu_data_master_debugaccess;
assign cpu_instruction_master_requests_cpu_jtag_debug_module = ({cpu_instruction_master_address_to_slave[23 : 11] , 11'b0} == 24'h900000) & (cpu_instruction_master_read);
//cpu/data_master granted cpu/jtag_debug_module last time, which is an e_register
always @(posedge clk or negedge reset_n)
begin
if (reset_n == 0)
last_cycle_cpu_data_master_granted_slave_cpu_jtag_debug_module <= 0;
else if (1)
last_cycle_cpu_data_master_granted_slave_cpu_jtag_debug_module <= cpu_data_master_saved_grant_cpu_jtag_debug_module ? 1 : (cpu_jtag_debug_module_arbitration_holdoff_internal | ~cpu_data_master_requests_cpu_jtag_debug_module) ? 0 : last_cycle_cpu_data_master_granted_slave_cpu_jtag_debug_module;
end
//cpu_data_master_continuerequest continued request, which is an e_mux
assign cpu_data_master_continuerequest = last_cycle_cpu_data_master_granted_slave_cpu_jtag_debug_module & cpu_data_master_requests_cpu_jtag_debug_module;
assign cpu_instruction_master_qualified_request_cpu_jtag_debug_module = cpu_instruction_master_requests_cpu_jtag_debug_module & ~((cpu_instruction_master_read & ((cpu_instruction_master_latency_counter != 0))) | cpu_data_master_arbiterlock);
//local readdatavalid cpu_instruction_master_read_data_valid_cpu_jtag_debug_module, which is an e_mux
assign cpu_instruction_master_read_data_valid_cpu_jtag_debug_module = cpu_instruction_master_granted_cpu_jtag_debug_module & cpu_instruction_master_read & ~cpu_jtag_debug_module_waits_for_read;
//allow new arb cycle for cpu/jtag_debug_module, which is an e_assign
assign cpu_jtag_debug_module_allow_new_arb_cycle = ~cpu_data_master_arbiterlock & ~cpu_instruction_master_arbiterlock;
//cpu/instruction_master assignment into master qualified-requests vector for cpu/jtag_debug_module, which is an e_assign
assign cpu_jtag_debug_module_master_qreq_vector[0] = cpu_instruction_master_qualified_request_cpu_jtag_debug_module;
//cpu/instruction_master grant cpu/jtag_debug_module, which is an e_assign
assign cpu_instruction_master_granted_cpu_jtag_debug_module = cpu_jtag_debug_module_grant_vector[0];
//cpu/instruction_master saved-grant cpu/jtag_debug_module, which is an e_assign
assign cpu_instruction_master_saved_grant_cpu_jtag_debug_module = cpu_jtag_debug_module_arb_winner[0] && cpu_instruction_master_requests_cpu_jtag_debug_module;
//cpu/data_master assignment into master qualified-requests vector for cpu/jtag_debug_module, which is an e_assign
assign cpu_jtag_debug_module_master_qreq_vector[1] = cpu_data_master_qualified_request_cpu_jtag_debug_module;
//cpu/data_master grant cpu/jtag_debug_module, which is an e_assign
assign cpu_data_master_granted_cpu_jtag_debug_module = cpu_jtag_debug_module_grant_vector[1];
//cpu/data_master saved-grant cpu/jtag_debug_module, which is an e_assign
assign cpu_data_master_saved_grant_cpu_jtag_debug_module = cpu_jtag_debug_module_arb_winner[1] && cpu_data_master_requests_cpu_jtag_debug_module;
//cpu/jtag_debug_module chosen-master double-vector, which is an e_assign
assign cpu_jtag_debug_module_chosen_master_double_vector = {cpu_jtag_debug_module_master_qreq_vector, cpu_jtag_debug_module_master_qreq_vector} & ({~cpu_jtag_debug_module_master_qreq_vector, ~cpu_jtag_debug_module_master_qreq_vector} + cpu_jtag_debug_module_arb_addend);
//stable onehot encoding of arb winner
assign cpu_jtag_debug_module_arb_winner = (cpu_jtag_debug_module_allow_new_arb_cycle & | cpu_jtag_debug_module_grant_vector) ? cpu_jtag_debug_module_grant_vector : cpu_jtag_debug_module_saved_chosen_master_vector;
//saved cpu_jtag_debug_module_grant_vector, which is an e_register
always @(posedge clk or negedge reset_n)
begin
if (reset_n == 0)
cpu_jtag_debug_module_saved_chosen_master_vector <= 0;
else if (cpu_jtag_debug_module_allow_new_arb_cycle)
cpu_jtag_debug_module_saved_chosen_master_vector <= |cpu_jtag_debug_module_grant_vector ? cpu_jtag_debug_module_grant_vector : cpu_jtag_debug_module_saved_chosen_master_vector;
end
//onehot encoding of chosen master
assign cpu_jtag_debug_module_grant_vector = {(cpu_jtag_debug_module_chosen_master_double_vector[1] | cpu_jtag_debug_module_chosen_master_double_vector[3]),
(cpu_jtag_debug_module_chosen_master_double_vector[0] | cpu_jtag_debug_module_chosen_master_double_vector[2])};
//cpu/jtag_debug_module chosen master rotated left, which is an e_assign
assign cpu_jtag_debug_module_chosen_master_rot_left = (cpu_jtag_debug_module_arb_winner << 1) ? (cpu_jtag_debug_module_arb_winner << 1) : 1;
//cpu/jtag_debug_module's addend for next-master-grant
always @(posedge clk or negedge reset_n)
begin
if (reset_n == 0)
cpu_jtag_debug_module_arb_addend <= 1;
else if (|cpu_jtag_debug_module_grant_vector)
cpu_jtag_debug_module_arb_addend <= cpu_jtag_debug_module_end_xfer? cpu_jtag_debug_module_chosen_master_rot_left : cpu_jtag_debug_module_grant_vector;
end
assign cpu_jtag_debug_module_begintransfer = cpu_jtag_debug_module_begins_xfer;
//assign lhs ~cpu_jtag_debug_module_reset of type reset_n to cpu_jtag_debug_module_reset_n, which is an e_assign
assign cpu_jtag_debug_module_reset = ~cpu_jtag_debug_module_reset_n;
//cpu_jtag_debug_module_reset_n assignment, which is an e_assign
assign cpu_jtag_debug_module_reset_n = reset_n;
//assign cpu_jtag_debug_module_resetrequest_from_sa = cpu_jtag_debug_module_resetrequest so that symbol knows where to group signals which may go to master only, which is an e_assign
assign cpu_jtag_debug_module_resetrequest_from_sa = cpu_jtag_debug_module_resetrequest;
assign cpu_jtag_debug_module_chipselect = cpu_data_master_granted_cpu_jtag_debug_module | cpu_instruction_master_granted_cpu_jtag_debug_module;
//cpu_jtag_debug_module_firsttransfer first transaction, which is an e_assign
assign cpu_jtag_debug_module_firsttransfer = ~(cpu_jtag_debug_module_slavearbiterlockenable & cpu_jtag_debug_module_any_continuerequest);
//cpu_jtag_debug_module_beginbursttransfer_internal begin burst transfer, which is an e_assign
assign cpu_jtag_debug_module_beginbursttransfer_internal = cpu_jtag_debug_module_begins_xfer & cpu_jtag_debug_module_firsttransfer;
//cpu_jtag_debug_module_arbitration_holdoff_internal arbitration_holdoff, which is an e_assign
assign cpu_jtag_debug_module_arbitration_holdoff_internal = cpu_jtag_debug_module_begins_xfer & cpu_jtag_debug_module_firsttransfer;
//cpu_jtag_debug_module_write assignment, which is an e_mux
assign cpu_jtag_debug_module_write = cpu_data_master_granted_cpu_jtag_debug_module & cpu_data_master_write;
//cpu_jtag_debug_module_address mux, which is an e_mux
assign cpu_jtag_debug_module_address = (cpu_data_master_granted_cpu_jtag_debug_module)? (cpu_data_master_address_to_slave >> 2) :
(cpu_instruction_master_address_to_slave >> 2);
//d1_cpu_jtag_debug_module_end_xfer register, which is an e_register
always @(posedge clk or negedge reset_n)
begin
if (reset_n == 0)
d1_cpu_jtag_debug_module_end_xfer <= 1;
else if (1)
d1_cpu_jtag_debug_module_end_xfer <= cpu_jtag_debug_module_end_xfer;
end
//cpu_jtag_debug_module_waits_for_read in a cycle, which is an e_mux
assign cpu_jtag_debug_module_waits_for_read = cpu_jtag_debug_module_in_a_read_cycle & cpu_jtag_debug_module_begins_xfer;
//cpu_jtag_debug_module_in_a_read_cycle assignment, which is an e_assign
assign cpu_jtag_debug_module_in_a_read_cycle = (cpu_data_master_granted_cpu_jtag_debug_module & cpu_data_master_read) | (cpu_instruction_master_granted_cpu_jtag_debug_module & cpu_instruction_master_read);
//in_a_read_cycle assignment, which is an e_mux
assign in_a_read_cycle = cpu_jtag_debug_module_in_a_read_cycle;
//cpu_jtag_debug_module_waits_for_write in a cycle, which is an e_mux
assign cpu_jtag_debug_module_waits_for_write = cpu_jtag_debug_module_in_a_write_cycle & cpu_jtag_debug_module_begins_xfer;
//cpu_jtag_debug_module_in_a_write_cycle assignment, which is an e_assign
assign cpu_jtag_debug_module_in_a_write_cycle = cpu_data_master_granted_cpu_jtag_debug_module & cpu_data_master_write;
//in_a_write_cycle assignment, which is an e_mux
assign in_a_write_cycle = cpu_jtag_debug_module_in_a_write_cycle;
assign wait_for_cpu_jtag_debug_module_counter = 0;
//cpu_jtag_debug_module_byteenable byte enable port mux, which is an e_mux
assign cpu_jtag_debug_module_byteenable = (cpu_data_master_granted_cpu_jtag_debug_module)? cpu_data_master_byteenable :
-1;
//synthesis translate_off
//////////////// SIMULATION-ONLY CONTENTS
//grant signals are active simultaneously, which is an e_process
always @(posedge clk)
begin
if (cpu_data_master_granted_cpu_jtag_debug_module + cpu_instruction_master_granted_cpu_jtag_debug_module > 1)
begin
$write("%0d ns: > 1 of grant signals are active simultaneously", $time);
$stop;
end
end
//saved_grant signals are active simultaneously, which is an e_process
always @(posedge clk)
begin
if (cpu_data_master_saved_grant_cpu_jtag_debug_module + cpu_instruction_master_saved_grant_cpu_jtag_debug_module > 1)
begin
$write("%0d ns: > 1 of saved_grant signals are active simultaneously", $time);
$stop;
end
end
//////////////// END SIMULATION-ONLY CONTENTS
//synthesis translate_on
// synthesis attribute cpu_jtag_debug_module_arbitrator auto_dissolve FALSE
endmodule
module cpu_data_master_arbitrator (
// inputs:
button_pio_s1_irq_from_sa,
button_pio_s1_readdata_from_sa,
clk,
cpu_data_master_address,
cpu_data_master_byteenable_ext_flash_s1,
cpu_data_master_debugaccess,
cpu_data_master_granted_button_pio_s1,
cpu_data_master_granted_cpu_jtag_debug_module,
cpu_data_master_granted_ext_flash_s1,
cpu_data_master_granted_ext_ram_s1,
cpu_data_master_granted_jtag_uart_avalon_jtag_slave,
cpu_data_master_granted_lcd_pio_s1,
cpu_data_master_granted_led_pio_s1,
cpu_data_master_granted_reconfig_request_pio_s1,
cpu_data_master_granted_seven_seg_pio_s1,
cpu_data_master_granted_system_timer_s1,
cpu_data_master_qualified_request_button_pio_s1,
cpu_data_master_qualified_request_cpu_jtag_debug_module,
cpu_data_master_qualified_request_ext_flash_s1,
cpu_data_master_qualified_request_ext_ram_s1,
cpu_data_master_qualified_request_jtag_uart_avalon_jtag_slave,
cpu_data_master_qualified_request_lcd_pio_s1,
cpu_data_master_qualified_request_led_pio_s1,
cpu_data_master_qualified_request_reconfig_request_pio_s1,
cpu_data_master_qualified_request_seven_seg_pio_s1,
cpu_data_master_qualified_request_system_timer_s1,
cpu_data_master_read,
cpu_data_master_read_data_valid_button_pio_s1,
cpu_data_master_read_data_valid_cpu_jtag_debug_module,
cpu_data_master_read_data_valid_ext_flash_s1,
cpu_data_master_read_data_valid_ext_ram_s1,
cpu_data_master_read_data_valid_jtag_uart_avalon_jtag_slave,
cpu_data_master_read_data_valid_lcd_pio_s1,
cpu_data_master_read_data_valid_led_pio_s1,
cpu_data_master_read_data_valid_reconfig_request_pio_s1,
cpu_data_master_read_data_valid_seven_seg_pio_s1,
cpu_data_master_read_data_valid_system_timer_s1,
cpu_data_master_requests_button_pio_s1,
cpu_data_master_requests_cpu_jtag_debug_module,
cpu_data_master_requests_ext_flash_s1,
cpu_data_master_requests_ext_ram_s1,
cpu_data_master_requests_jtag_uart_avalon_jtag_slave,
cpu_data_master_requests_lcd_pio_s1,
cpu_data_master_requests_led_pio_s1,
cpu_data_master_requests_reconfig_request_pio_s1,
cpu_data_master_requests_seven_seg_pio_s1,
cpu_data_master_requests_system_timer_s1,
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