A record is just another way of grouping other types, similar to using an array
for grouping of a
std_logic_vector, so there is nothing
magical about records that make them better for avoiding latches in a design.
If you get unintended latches in your design, what I guess you think of as
"latch problems", it is because you coding style specifies latches, and you
should change the coding style, as @zennehoy also suggests.
One approach can be to define some code templates for different constructions
that you use, and then stick to these known and working templates.
The template for a flip-flop (FF) with asynchronous reset can be:
process (clk_i, rst_i) is
if rising_edge(clk_i) then
... Control structures with Qs assign by function for Ds
... Synchronous reset is just another branch
-- Reset (asynchronous) if required
if rst_i = '1' then
... Qs assign with constant reset value for so or all Qs
Use concurrent signal assigns when possible, and more complex expressions can
be done through use of concurrent function call, where a function is used
outside a process like:
z_o <= fun(a_i, b_i);
If a process is used to create combinatorial logic, then a common pitfall and
cause for latches in VHDL is to forget a signal in the sensitivity list.
However, VHDL-2008 has a solution for this, since you can use
sensitivity list, whereby all signal used in the process are implicitly
included in the sensitivity list. So if you use VHDL-2008, then your template
for combinatorial processes can be:
process (all) is
z_o <= a_i and b_i;
These template should be all you need for typical synthesizable design, and
these will keep your design latch free.