.. role:: verilog(code) :language: Verilog Binary operators ~~~~~~~~~~~~~~~~ All binary RTL cells have two input ports ``A`` and ``B`` and one output port ``Y``. They also have the following parameters: ``A_SIGNED`` Set to a non-zero value if the input ``A`` is signed and therefore should be sign-extended when needed. ``A_WIDTH`` The width of the input port ``A``. ``B_SIGNED`` Set to a non-zero value if the input ``B`` is signed and therefore should be sign-extended when needed. ``B_WIDTH`` The width of the input port ``B``. ``Y_WIDTH`` The width of the output port ``Y``. .. table:: Cell types for binary operators with their corresponding Verilog expressions. ======================= =============== ======================= =========== Verilog Cell Type Verilog Cell Type ======================= =============== ======================= =========== :verilog:`Y = A & B` `$and` :verilog:`Y = A ** B` `$pow` :verilog:`Y = A | B` `$or` :verilog:`Y = A < B` `$lt` :verilog:`Y = A ^ B` `$xor` :verilog:`Y = A <= B` `$le` :verilog:`Y = A ~^ B` `$xnor` :verilog:`Y = A == B` `$eq` :verilog:`Y = A << B` `$shl` :verilog:`Y = A != B` `$ne` :verilog:`Y = A >> B` `$shr` :verilog:`Y = A >= B` `$ge` :verilog:`Y = A <<< B` `$sshl` :verilog:`Y = A > B` `$gt` :verilog:`Y = A >>> B` `$sshr` :verilog:`Y = A + B` `$add` :verilog:`Y = A && B` `$logic_and` :verilog:`Y = A - B` `$sub` :verilog:`Y = A || B` `$logic_or` :verilog:`Y = A * B` `$mul` :verilog:`Y = A === B` `$eqx` :verilog:`Y = A / B` `$div` :verilog:`Y = A !== B` `$nex` :verilog:`Y = A % B` `$mod` ``N/A`` `$shift` ``N/A`` `$divfloor` ``N/A`` `$shiftx` ``N/A`` `$modfloor` ======================= =============== ======================= =========== The `$shl` and `$shr` cells implement logical shifts, whereas the `$sshl` and `$sshr` cells implement arithmetic shifts. The `$shl` and `$sshl` cells implement the same operation. All four of these cells interpret the second operand as unsigned, and require ``B_SIGNED`` to be zero. Two additional shift operator cells are available that do not directly correspond to any operator in Verilog, `$shift` and `$shiftx`. The `$shift` cell performs a right logical shift if the second operand is positive (or unsigned), and a left logical shift if it is negative. The `$shiftx` cell performs the same operation as the `$shift` cell, but the vacated bit positions are filled with undef (x) bits, and corresponds to the Verilog indexed part-select expression. For the binary cells that output a logical value (`$logic_and`, `$logic_or`, `$eqx`, `$nex`, `$lt`, `$le`, `$eq`, `$ne`, `$ge`, `$gt`), when the ``Y_WIDTH`` parameter is greater than 1, the output is zero-extended, and only the least significant bit varies. Division and modulo cells are available in two rounding modes. The original `$div` and `$mod` cells are based on truncating division, and correspond to the semantics of the verilog ``/`` and ``%`` operators. The `$divfloor` and `$modfloor` cells represent flooring division and flooring modulo, the latter of which is also known as "remainder" in several languages. See the following table for a side-by-side comparison between the different semantics. .. table:: Comparison between different rounding modes for division and modulo cells. +-----------+--------+-----------+-----------+-----------+-----------+ | Division | Result | Truncating | Flooring | +-----------+--------+-----------+-----------+-----------+-----------+ | | | $div | $mod | $divfloor | $modfloor | +===========+========+===========+===========+===========+===========+ | -10 / 3 | -3.3 | -3 | -1 | -4 | 2 | +-----------+--------+-----------+-----------+-----------+-----------+ | 10 / -3 | -3.3 | -3 | 1 | -4 | -2 | +-----------+--------+-----------+-----------+-----------+-----------+ | -10 / -3 | 3.3 | 3 | -1 | 3 | -1 | +-----------+--------+-----------+-----------+-----------+-----------+ | 10 / 3 | 3.3 | 3 | 1 | 3 | 1 | +-----------+--------+-----------+-----------+-----------+-----------+ .. autocellgroup:: binary :members: :source: :linenos: