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I am attempting to used the ufixed datatype and add 2 ufixed values together, I have calculated I should have enough bits to store the result and the output should be able to be stored in the signal, but when I attempt to perform it I get a bound check failure. Can someone tell me why I am getting this?

The important parts of the code are:

-- definition of parameters used in the failing calculation

input : in ufixed(0 downto -15); -- Q1.15

constant VectorLength : integer := 3;
type vector_ufixed is array(0 to VectorLength-1) of ufixed(1 downto -14);

constant InnerProductArray : vector_ufixed := (to_ufixed(1.2,1,-14), to_ufixed(1.0,1,-14), to_ufixed(0.2,1,-14));

signal InnerProductResult : ufixed(4 downto -29); -- Q5.29

signal counter : integer := 0;


write(l, real'image(to_real(InnerProductResult)));
write(l, string'(", "));
write(l, real'image(to_real(InnerProductResult + input*InnerProductArray(counter))));
writeline(output, l);
InnerProductResult <= InnerProductResult +                                                                            
                      input*InnerProductArray(counter);

When I simulate this with ghdl I get the following result:

0.0, 6.00006103515625e-1
ghdl:error: bound check failure at InnerProduct.vhd:55
  from: process work.innerproduct(innerproductarchitecture).P0 at InnerProduct.vhd:55
ghdl:error: simulation failed

line 55 in this case is the line InnerProductResult <= InnerProductResult + input*InnerProductArray(counter);

input takes the value 0.5, as can be observed from the resulting value of 6.00006103515625e-1 when input is multiplied by 1.2.

The value 6.00006103515625e^-1*2^29 is 322125824 as well which is an integer less than 2^34 so it should fit fine, I don't understand why this might be?

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  • 6.00006103515625e^-1*2^29 is 322125824 as well which is an integer less than 2^34 so it should fit fine, I don't understand why this might be? Commented Jun 21, 2017 at 17:37
  • The problem appears to be that I need to resize the resulting addition result by performing InnerProductResult <= InnerProductResult + resize(input, 34)*resize(InnerProductArray(counter), 34); So that the result of the addition is 34 bits wide. This works if these variables are unsigned, but not if they are ufixed. I get no overloaded function found matching ''resize'' Commented Jun 21, 2017 at 17:54
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    You don't provide a Minimal, Complete and Verifiable example, not identifying line 55, not providing a value for input nor allowing the reader to replicate your error message. (Note that textio is not portable - IEEE Std 1076-2008 Annex D, there's no guarantee the output will appear as you show, it's dependent on fflush of standard output which isn't guaranteed). For those not quite curious enough to laboriously create an MCVe, Line 55 is the assignment to InnerProductResult. Your code snippet also has lots of trailing spaces.
    – user1155120
    Commented Jun 21, 2017 at 18:43
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    Didn't ask for your entire code, asked for an MCVe. Your question is unclear and the problem not reproducible as shown. That you learned something from the journey is fine. What about other Stackoverflow readers?
    – user1155120
    Commented Jun 21, 2017 at 18:59
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    The code for an MCVe doesn't have to be large and the problem would stand out, particularly identifying the line with the error.
    – user1155120
    Commented Jun 21, 2017 at 19:40

1 Answer 1

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When performing a arithmetic operations such as this, addition and multiplication in this case, it is necessary to resize the result of the operation to fit into the location it is being stored. In this case we add a 34 bit number to 2 16 bit numbers and so we need to resize the result to be 34 bits wide in order to fit precisely into the storage location i.e. InnerProductResult.

The syntax for resize in fixed_pkg appears to differ from that used in numeric_std for signed and unsigned numbers. The following syntax is nessesary to use for operations done with fixed_pkg, this was found in http://www.klabs.org/mapld05/presento/189_lewis_p.pdf:

InnerProductResult <= resize(                                                                                         
    arg => InnerProductResult + input*InnerProductArray(counter),                                                       
    size_res => InnerProductResult                                                                                      
    ); 
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  • Because resize it is necessary to resize the result of adding and multiplication values as they are being put into a value of a different size than that of themselves, I'll update my answer to make that more clear. Commented Jun 21, 2017 at 18:42
  • In another, very similar piece of code I have a similar line where I have InnerProductResult <= InnerProductResult + input*InnerProductArray(counter); Where the InnerProductResult is a 34 bit unsigned, input and InnerProductArray(counter) are 16 bit unsigneds. The values are the same an in this case apart from the values stored are integers multiplied by the appropriate power of 2. Why is it that in this case resize is not necessary? Commented Jun 21, 2017 at 19:06
  • Did you just ask a question on StackOverflow to write your own answer?
    – JHBonarius
    Commented Jun 22, 2017 at 9:27
  • No, I asked the question and then found out the answer before anyone else answered it when experimenting with different solutions and reading the linked pdf Commented Jun 22, 2017 at 10:15

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