Tag Info

Hot answers tagged

6

Parameters are nicer(safer) than defines since the namespace is not global to the project. You should be able to do this with two parameters. parameter BITFIELD_HIGH = 31; parameter BITFIELD_LOW = 28; assign foo = bar[BITFIELD_HIGH:BITFIELD_LOW]; Alternatively parameter BITFIELD_HIGH = 31; localparam BITFIELD_LOW = BITFIELD_HIGH-3; assign foo = ...


6

As a quick simulation would prove, assign mywire = 128'b1; does not assign all bits of mywire to 1. Only bit 0 is assigned 1. Both of the following always assign all 128 bits to 1: assign mywire = {128{1'b1}}; assign mywire = 128'hFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF; One advantage of the 1st line is that it is more easily scalable to widths greater than ...


5

You are probably looking for a simulator. First, you have to write a testbench which wraps around your Verilog module and drives the input signals. This testbench can also check that the output of your module matches the expected output. You can find many tutorials on writing testbenches online. This testbench and your module are then "executed" in a ...


4

In general terminology, checkers and scoreboards are used interchangeably and both compare actual results from the DUT to expected results. However a checker usually is specific to an independent piece of functionality that you want to verify, whereas a scoreboard may be a collection of one or more checkers for an interface or the entire DUT. A scoreboard ...


4

What a great schematic: +1 for going to the trouble of generating it. You've got multiple issues with your code, and this is a great example of the dangers of using blocking assignments, feedback, not using synthesis templates, and so on. Quartus has certainly screwed up, but it's not surprising given the input. Issues: don't use blocking assignments here ...


3

In a Verilog simulation delta-cycles are those used by the simulator to calculate the next value. When entering a combinatorial section the simulator will use many delta cycles to resolve the dependencies required for the answer. If you have combinatorial loops not broken up with a flip-flop the simulator may get stuck constantly reiterating the loop trying ...


3

Use get_randstate(), which is defined as function string get_randstate(); From the SystemVerilog 2012 language spec: The get_randstate() method returns a copy of the internal state of the RNG associated with the given object. The RNG state is a string of unspecified length and format. The length and contents of the string are implementation dependent. ...


3

You're talking about two different things. NCVerilog is a simulation tool while an FPGA board is real hardware. So, there will be differences. Real hardware will be generally faster but with a simulator, you can have all sorts of debugging fun. Trying to probe a specific signal is just a matter of adding a line to the testbench. Also, you can easily make ...


3

We've had the same issues with simulation speed too. However, we stick with simulations for the majority of our verification. Each sim checks a specific function and are much quicker than system-level sims. We've also made them self-checking and are useful for regressions tests (unit-tests). For long system tests on real-world signals that take too much ...


3

You can trace activity on signals in a running FPGA design using "embedded logic analyzer" software tools like Altera SignalTap or Xilinx ChipScope. Before synthesizing/mapping your RTL to the device, you would use these tools to attach soft probes to the signals you want to watch. You can set triggers so that a signal's values only get logged under ...


2

What kind of RTL are you testing ? If you use FPGA boards, then you can compile your code provided you have the right tool for the right FPGA. Since FPGA are reprograammable, then of course you can test your code on the board, and have the target (FPGA) execute your code (RTL) But it is no more a simulation, it is a test, with a given hardware, at a given ...


2

Not quite sure of the actual usage you are looking for (how does the index of col_array relate to the indices of td_array if at all), but does this help? (I've rearranged things as a 2-d array rather than a vector of vectors) architecture a1 of test is type std_ulogic_2d is array(natural range <>, natural range <>) of std_ulogic; signal ...


2

For anyone else who has the same question, I found a testbench tutorial, like Vortexfive suggested, in the link bellow: http://www.asic-world.com/verilog/art_testbench_writing.html


2

You need an additional parameter for the size: module reg_slave #(parameter int SIZE=1, reg_pkg::defval_pair [SIZE-1:0] REG_DEFVAL = '0 //param decl with size=1 )(); endmodule : reg_slave You have a few errors in assigning REG_DEFVAL in top. REG_DEFVAL is a packed array, therefore remove the single quite. defval_pair is a packed ...


2

Using type parameter. However, you still need an extra parameter to pass into the instance. The advantage is that you can change a parameter's type. module reg_slave #(parameter type T = int, T REG_DEFVAL = '0 //param decl with size=1 )(); endmodule : reg_slave module top(); localparam reg_pkg::defval_pair [1:0] REG_DEFVAL = '{ ...


2

Looking in Modelsim's Verror messages: vcom Message # 1451: The actual designator is not a static signal name, it is an expression. In a VHDL 1987 port map, the actual designator in an association element must be either a static signal name or a conversion function call whose only argument is a static signal name. In a subprogram association list ...


2

You seem to be missing some clocked elements in your design. From what I understand of your design, you seem to expect once the state goes to COMPUTING, it should keep iterating the values of a and b until b reaches 0. But the only thing you're actually clocking on a clock edge is the state variable, so there's no memory of a and b from one state to the ...


2

The identifier can be qualified with package or entity name in order to specify which of the overlapping identifiers that should be used. For example with the code: package pkg is constant CONST : integer := 17; end package; ... use work.pkg; use work.pkg.all; entity mdl is generic( CONST : integer := 42); end entity; architecture sim of mdl is ...


2

There are a few ways that a DSP48 may be used in your VHDL. It may be inferred. This is when the synthesis tool is smart by looking at an operation that you are doing (such as a multiply) and realizing that it would be most efficient to do the multiply with a dedicated resource (DSP48) instead of fabric/logic. It may be instantiated. This means that the ...


2

You're missing some ;s after the struct member declarations. Change it to: typedef struct { logic[2:0] three_bits; logic[1:0] two_bits; } t_five_bits;


2

Not necessarily the best solution, but an option is to use this universal css selector: * * { direction:rtl; }


2

That symbol is just a buffer, which drives the output equal to the input. As to why it would be appearing in a digital logic schematic, I'm not sure. Buffers don't have any impact on the digital functioning of a circuit, they are inserted by synthesizers when the capacitance of a net is too large for the driver cell to drive efficiently. You can mostly ...


1

What is the proper way to implement clock gating in RTL? The clock gating signal should only toggle when the latch is closed, otherwise there is a chance for glitches and metastability issues. For an active high latch, the gating signal should toggle on the falling edge of the clock. Rising edge for active low latches. Normally you would an edge sensitive ...


1

I don't see how i could be -1, but it is possible for it to be greater than 31 which is out of range. There are couple of synthesis issues: i=32 is already out of range for X[31:0]. Its MSB is 31. i will go out of range when width > 31. width is a 16-bit unsigned value, meaning its maximum value is 65535 (i.e. 216-1) and its minimum is 0. Synthesis ...


1

So I think I found some answers to the problem and want to share them. I started to simulate the GTXE2_CHANNEL hardmacro. The simulation is behaving as "false" as the hardware. So I tried to simulate the MGT in Verilog and used an instance template from here: ...


1

It seems to me that the types don't match. You're expecting an argument of type LC3_io.TB for your program block, but you're passing in an interface of type LC3_io. Try changing your code to this: // pass the TB modport from 'top_io' LC3_test test(top_io.TB);


1

As you are using numeric_std (which you should be), you will need to either change the type of temp to unsigned or cast the result of the addition to std_logic_vector. For signed addition, you can detect overflow by comparing the input signs with the output sign. If the input signs match and the output sign is different, you have overflow. Otherwise, you ...


1

So your issue is that you're assigning state = next_state but next_state is never defined! Since next_state is undefined, your state goes to default. In default you assign state back to IDLE (hence why in between clocks you see state as idle, but you still never assign next_state. Second clock comes and you do the same thing over and over since next_state ...


1

You need to name the generate block and then you can index it. See section 24.7 of the standard. For example: genvar idx; for(idx=0; idx<4; idx) begin : engine_loop engine engine_top(); end initial begin $deposit(engine_loop[2].engine_top.soft_reset_n, 1'b0); end


1

I would typically put a checker in a monitor to check that a transaction has been created correctly and that it contains a legal combination of data. This could check that the protocol was correctly followed. The scoreboard checks that the transaction contains the right data. In a simple data flow example you could have an input agent and an output agent. ...



Only top voted, non community-wiki answers of a minimum length are eligible