An alternative to a hardware multiplier, is to make a hardware mapping table, which is feasible for few and short values as in this case. The code for a mapping table may be:
entity mdl is
a_i : in std_logic_vector(6 - 1 downto 0);
z_o : out std_logic_vector(7 - 1 downto 0));
architecture syn of mdl is
process (a_i) is
type mapping_t is array (0 to 32) of std_logic_vector(z_o'range);
function mapping_fun return mapping_t is
variable res_v : mapping_t;
for i in 0 to 32 loop
res_v(i) := std_logic_vector(to_unsigned(i * 100 / 32, z_o'length));
constant mapping : mapping_t := mapping_fun;
z_o <= mapping(to_integer(unsigned(a_i)));
The synthesis tool is usually able to optimize a constant mapping table (as the here) pretty effectively, and the above only takes 6 ALMs in Altera.
The table approach is in special a good solution, if the conversion factor is not as nice as
25 / 2^3, as in this case.