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

, k' v2 ~( z* @) |  @8 x( u
* B3 s5 N- s- H6 y9 C  ^* [) w( @& {8.0 Actual "full_case" design problem
' v# o( C5 _  k/ o8 `  mThe 2-to-4 decoder with enable in Example 12, uses a case statement that is coded without using
4 e  F4 F$ E& k/ o+ Jany synthesis directives. The resultant design was a decoder built from 3-input and gates and
8 X, n/ c* G3 o8 o# ~7 w& tinverters. 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
* g2 q, L! D, S/ M' I" K; x"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
results 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
$ m" J; _) z1 Z7 K2 g' l// Decoder built from four 3-input and gates
+ M! h( |' T1 d// and two inverters
6 }0 U6 f+ U/ Qmodule code4a (y, a, en);
: w2 t7 o+ l; A) q) I! B8 B3 Ioutput [3:0] y;
input [1:0] a;
' h; k  Q1 s! V4 S% I+ Z& uinput en;
) E7 s5 a2 r4 K5 Preg [3:0] y;
always @(a or en) begin
5 z% ?; ]- D) v+ M8 Qy = 4'h0;
" d, C9 o% p1 B. C2 K4 Q+ z. Mcase ({en,a})
3'b1_00: y[a] = 1'b1;
3 ?7 P1 U, [$ ^" ^3'b1_01: y[a] = 1'b1;
3'b1_10: y[a] = 1'b1;
3'b1_11: y[a] = 1'b1;
endcase
" j" M' |, R. p) Y  [end
endmodule
" G. L( `  X* l2 @Example 12 - Decoder example with no "full_case" directive
Statistics for case statements in always block at line 9 in file
'.../code4a.v'
6 D2 C7 Q/ a  ]4 d9 h4 x  s2 E===============================================
| Line | full/ parallel |
1 w" r3 C8 x6 B. e/ a. u6 X===============================================
| 12 | no/auto |
===============================================
Figure 19 - Case statement report for Example 12

$ x9 u' G$ H0 G/ s* W; I1 }
+ K9 W! |" [8 g/ L8 u" ]// full_case example
// Decoder built from four 2-input nor gates
// and two inverters
: o" Y6 b( ?+ \. s$ V5 Y// The enable input is dangling (has been optimized away)
module code4b (y, a, en);
6 j% f. K( s% N' Poutput [3:0] y;
input [1:0] a;
3 C7 i& b, x2 q4 y) H4 Qinput en;
reg [3:0] y;
; S6 {& Z6 e: j" ?9 Nalways @(a or en) begin
y = 4'h0;
4 Z  h/ R8 \1 ~0 ^) H5 X6 Z6 S" ?case ({en,a}) // synopsys full_case
  i# H  [) ?: U8 z8 d3'b1_00: y[a] = 1'b1;
, m7 l6 g' g& m5 g& _$ U3'b1_01: y[a] = 1'b1;
, {7 W% s4 q/ R' {, u4 K3'b1_10: y[a] = 1'b1;
3'b1_11: y[a] = 1'b1;
endcase
end
! |" K9 |- X. D  w& Mendmodule
Example 13 - Decoder example with "full_case" directive
Warning: You are using the full_case directive with a case statement in which
2 l9 @( C9 @# C$ K6 C& x' U0 E7 Z7 X; H1 Enot all cases are covered
Statistics for case statements in always block at line 10 in file
'.../code4b.v'
===============================================
| Line | full/ parallel |
===============================================
| 13 | user/auto |
8 m( z1 K  ]0 b) o$ w1 D===============================================
; ?  f% C' s7 T& H$ w& hFigure 20 - Case statement report for Example 13
( ]" ]0 m8 ~* W7 U' ~4 ~% B; S
谁给解释一下原因呢?
  P$ C/ E: f' ]为啥会有差异?