对这段文字描述感觉有些困惑

mengzhuhao

对这段文字描述感觉有些困惑


; g( @! b8 `; F4 V0 F$ P" u8.0 Actual "full_case" design problem
The 2-to-4 decoder with enable in Example 12, uses a case statement that is coded without using
1 D& T# D4 |0 F0 e2 A& G' t" |any synthesis directives. The resultant design was a decoder built from 3-input and gates and
inverters. No latch is inferred because all outputs are given a default assignment before the case
statement. For this example, the pre-synthesis and post-synthesis designs and simulations
matched. The 2-to-4 decoder with enable in Example 13, uses a case statement with the
' U) f. q& l4 ^6 H; y6 [# P2 v"full_case" synthesis directive. Because of this synthesis directive, the enable input (en) was
optimized away during synthesis and left as a dangling input. The pre-synthesis simulation
* [3 Q8 D9 S* lresults of modules code4a and code4b matched the post-synthesis simulation results of module
code4a, but did not match the post-synthesis simulation results of module code4b [2].
// no full_case
// Decoder built from four 3-input and gates
$ Y8 Z" k( ?( l3 p// and two inverters
6 F- h; f* K' S7 b% dmodule code4a (y, a, en);
. m3 G/ E7 r8 `$ Moutput [3:0] y;
, Z; o* R  c, T" O' linput [1:0] a;
- z( Y/ \- `* f) P/ T$ u2 sinput en;
reg [3:0] y;
always @(a or en) begin
y = 4'h0;
case ({en,a})
: A% B* G5 P/ Z0 k& V0 Q% z3'b1_00: y[a] = 1'b1;
3'b1_01: y[a] = 1'b1;
5 f3 g, r! V7 ]+ K1 c3'b1_10: y[a] = 1'b1;
3'b1_11: y[a] = 1'b1;
3 H; G  J9 H/ s, [endcase
end
6 {# H% Q' }: g7 H" lendmodule
Example 12 - Decoder example with no "full_case" directive
Statistics for case statements in always block at line 9 in file
'.../code4a.v'
===============================================
| Line | full/ parallel |
, y# d! i, }: M; y  H& c2 `! L! D; [===============================================
| 12 | no/auto |
5 Z8 f( u! J5 d1 C. Z' Y===============================================
Figure 19 - Case statement report for Example 12

8 G1 M3 \( i# K
( X3 m2 Q, A. b  Q$ O6 r// full_case example
# Z) w$ U6 a5 Q+ [5 k0 {' L, }* r* ?// Decoder built from four 2-input nor gates
// and two inverters
// The enable input is dangling (has been optimized away)
4 e, a' Y2 l+ h3 z( p5 ]module code4b (y, a, en);
output [3:0] y;
input [1:0] a;
input en;
. m  e# s$ u/ S2 P) [9 mreg [3:0] y;
always @(a or en) begin
y = 4'h0;
case ({en,a}) // synopsys full_case
3'b1_00: y[a] = 1'b1;
5 U6 d& _& i3 r- @, s3'b1_01: y[a] = 1'b1;
  H# b' G0 e* v  @3'b1_10: y[a] = 1'b1;
3'b1_11: y[a] = 1'b1;
, F$ P: ]7 j4 {1 ], Oendcase
% y% h% S4 V- `) ?! cend
endmodule
$ t, R8 n8 ]7 e+ i7 w, D) RExample 13 - Decoder example with "full_case" directive
5 R# R. }- C- I* aWarning: You are using the full_case directive with a case statement in which
not all cases are covered
/ q1 Z+ H. N4 E2 Q" d, ?Statistics for case statements in always block at line 10 in file
+ z' v/ c% W$ z; |0 H9 K'.../code4b.v'
===============================================
; m* [. ~# \0 b$ V' [! O; Z| Line | full/ parallel |
. b& k: d7 V3 N5 _3 l) G; C' O# v===============================================
1 E0 m" e2 e! S& l| 13 | user/auto |
===============================================
Figure 20 - Case statement report for Example 13

谁给解释一下原因呢?
为啥会有差异?