cnt24.rpt

以前学习VHDL语言时做的一个电子闹钟程序

Device-Specific Information:                                   e:\hx\cnt24.rpt
cnt24

** FASTTRACK INTERCONNECT UTILIZATION **

Row FastTrack Interconnect:

          Global         Left Half-      Right Half-
         FastTrack       FastTrack       FastTrack 
Row     Interconnect    Interconnect    Interconnect    Input Pins     Output Pins     Bidir Pins
A:       3/ 96(  3%)     4/ 48(  8%)     3/ 48(  6%)    0/16(  0%)      9/16( 56%)     0/16(  0%)
B:       0/ 96(  0%)     0/ 48(  0%)     0/ 48(  0%)    0/16(  0%)      0/16(  0%)     0/16(  0%)
C:       0/ 96(  0%)     0/ 48(  0%)     0/ 48(  0%)    0/16(  0%)      0/16(  0%)     0/16(  0%)


Column FastTrack Interconnect:

         FastTrack                                 
Column  Interconnect    Input Pins     Output Pins     Bidir Pins
01:      0/24(  0%)     0/4(  0%)      0/4(  0%)       0/4(  0%)
02:      0/24(  0%)     0/4(  0%)      0/4(  0%)       0/4(  0%)
03:      0/24(  0%)     0/4(  0%)      0/4(  0%)       0/4(  0%)
04:      0/24(  0%)     0/4(  0%)      0/4(  0%)       0/4(  0%)
05:      0/24(  0%)     0/4(  0%)      0/4(  0%)       0/4(  0%)
06:      0/24(  0%)     0/4(  0%)      0/4(  0%)       0/4(  0%)
07:      0/24(  0%)     0/4(  0%)      0/4(  0%)       0/4(  0%)
08:      0/24(  0%)     0/4(  0%)      0/4(  0%)       0/4(  0%)
09:      0/24(  0%)     0/4(  0%)      0/4(  0%)       0/4(  0%)
10:      0/24(  0%)     0/4(  0%)      0/4(  0%)       0/4(  0%)
11:      0/24(  0%)     0/4(  0%)      0/4(  0%)       0/4(  0%)
12:      0/24(  0%)     0/4(  0%)      0/4(  0%)       0/4(  0%)
13:      0/24(  0%)     0/4(  0%)      0/4(  0%)       0/4(  0%)
14:      0/24(  0%)     0/4(  0%)      0/4(  0%)       0/4(  0%)
15:      0/24(  0%)     0/4(  0%)      0/4(  0%)       0/4(  0%)
16:      0/24(  0%)     0/4(  0%)      0/4(  0%)       0/4(  0%)
17:      0/24(  0%)     0/4(  0%)      0/4(  0%)       0/4(  0%)
18:      0/24(  0%)     0/4(  0%)      0/4(  0%)       0/4(  0%)
19:      0/24(  0%)     0/4(  0%)      0/4(  0%)       0/4(  0%)
20:      0/24(  0%)     0/4(  0%)      0/4(  0%)       0/4(  0%)
21:      0/24(  0%)     0/4(  0%)      0/4(  0%)       0/4(  0%)
22:      0/24(  0%)     0/4(  0%)      0/4(  0%)       0/4(  0%)
23:      0/24(  0%)     0/4(  0%)      0/4(  0%)       0/4(  0%)
24:      0/24(  0%)     0/4(  0%)      0/4(  0%)       0/4(  0%)
EA:      0/24(  0%)     0/4(  0%)      0/4(  0%)       0/4(  0%)


Device-Specific Information:                                   e:\hx\cnt24.rpt
cnt24

** CLOCK SIGNALS **

Type     Fan-out       Name
INPUT        9         clk


Device-Specific Information:                                   e:\hx\cnt24.rpt
cnt24

** CLEAR SIGNALS **

Type     Fan-out       Name
INPUT        9         rst


Device-Specific Information:                                   e:\hx\cnt24.rpt
cnt24

** EQUATIONS **

clk      : INPUT;
rst      : INPUT;

-- Node name is 'co' 
-- Equation name is 'co', type is output 
co       =  _LC1_A22;

-- Node name is ':20' = 'qh0' 
-- Equation name is 'qh0', location is LC4_A22, type is buried.
qh0      = DFFE( _EQ001, GLOBAL( clk), GLOBAL( rst),  VCC,  VCC);
  _EQ001 = !_LC4_A9 &  qh0
         # !_LC3_A22 &  _LC4_A9 & !qh0;

-- Node name is ':19' = 'qh1' 
-- Equation name is 'qh1', location is LC2_A22, type is buried.
qh1      = DFFE( _EQ002, GLOBAL( clk), GLOBAL( rst),  VCC,  VCC);
  _EQ002 = !_LC4_A9 &  qh1
         # !_LC3_A22 & !qh0 &  qh1
         # !_LC3_A22 &  _LC4_A9 &  qh0 & !qh1;

-- Node name is ':18' = 'qh2' 
-- Equation name is 'qh2', location is LC8_A22, type is buried.
qh2      = DFFE( _EQ003, GLOBAL( clk), GLOBAL( rst),  VCC,  VCC);
  _EQ003 = !_LC3_A22 & !_LC6_A22 &  qh2
         # !_LC3_A22 &  _LC4_A9 &  _LC6_A22 & !qh2
         # !_LC4_A9 &  qh2;

-- Node name is ':17' = 'qh3' 
-- Equation name is 'qh3', location is LC5_A22, type is buried.
qh3      = DFFE( _EQ004, GLOBAL( clk), GLOBAL( rst),  VCC,  VCC);
  _EQ004 = !_LC4_A9 &  qh3
         # !_LC3_A22 & !_LC7_A22 &  qh3
         # !_LC3_A22 &  _LC4_A9 &  _LC7_A22 & !qh3;

-- Node name is ':16' = 'ql0' 
-- Equation name is 'ql0', location is LC1_A9, type is buried.
ql0      = DFFE(!ql0, GLOBAL( clk), GLOBAL( rst),  VCC,  VCC);

-- Node name is ':15' = 'ql1' 
-- Equation name is 'ql1', location is LC7_A9, type is buried.
ql1      = DFFE( _EQ005, GLOBAL( clk), GLOBAL( rst),  VCC,  VCC);
  _EQ005 = !_LC4_A9 & !ql0 &  ql1
         # !_LC4_A9 &  ql0 & !ql1;

-- Node name is ':14' = 'ql2' 
-- Equation name is 'ql2', location is LC5_A9, type is buried.
ql2      = DFFE( _EQ006, GLOBAL( clk), GLOBAL( rst),  VCC,  VCC);
  _EQ006 = !_LC2_A9 & !_LC4_A9 &  ql2
         #  _LC2_A9 & !_LC4_A9 & !ql2;

-- Node name is ':13' = 'ql3' 
-- Equation name is 'ql3', location is LC3_A9, type is buried.
ql3      = DFFE( _EQ007, GLOBAL( clk), GLOBAL( rst),  VCC,  VCC);
  _EQ007 = !_LC4_A9 & !ql2 &  ql3
         # !_LC2_A9 & !_LC4_A9 &  ql3
         #  _LC2_A9 & !_LC4_A9 &  ql2 & !ql3;

-- Node name is 'qout0' 
-- Equation name is 'qout0', type is output 
qout0    =  ql0;

-- Node name is 'qout1' 
-- Equation name is 'qout1', type is output 
qout1    =  ql1;

-- Node name is 'qout2' 
-- Equation name is 'qout2', type is output 
qout2    =  ql2;

-- Node name is 'qout3' 
-- Equation name is 'qout3', type is output 
qout3    =  ql3;

-- Node name is 'qout4' 
-- Equation name is 'qout4', type is output 
qout4    =  qh0;

-- Node name is 'qout5' 
-- Equation name is 'qout5', type is output 
qout5    =  qh1;

-- Node name is 'qout6' 
-- Equation name is 'qout6', type is output 
qout6    =  qh2;

-- Node name is 'qout7' 
-- Equation name is 'qout7', type is output 
qout7    =  qh3;

-- Node name is '|LPM_ADD_SUB:140|addcore:adder|:55' from file "addcore.tdf" line 312, column 64
-- Equation name is '_LC6_A22', type is buried 
_LC6_A22 = LCELL( _EQ008);
  _EQ008 =  qh0 &  qh1;

-- Node name is '|LPM_ADD_SUB:140|addcore:adder|:59' from file "addcore.tdf" line 312, column 64
-- Equation name is '_LC7_A22', type is buried 
_LC7_A22 = LCELL( _EQ009);
  _EQ009 =  qh0 &  qh1 &  qh2;

-- Node name is '|LPM_ADD_SUB:208|addcore:adder|:55' from file "addcore.tdf" line 312, column 64
-- Equation name is '_LC2_A9', type is buried 
!_LC2_A9 = _LC2_A9~NOT;
_LC2_A9~NOT = LCELL( _EQ010);
  _EQ010 = !ql1
         # !ql0;

-- Node name is ':3' 
-- Equation name is '_LC1_A22', type is buried 
_LC1_A22 = DFFE( _EQ011, GLOBAL( clk), GLOBAL( rst),  VCC,  VCC);
  _EQ011 =  _LC3_A22 &  _LC4_A9
         #  _LC1_A22 & !_LC4_A9;

-- Node name is ':95' 
-- Equation name is '_LC4_A9', type is buried 
!_LC4_A9 = _LC4_A9~NOT;
_LC4_A9~NOT = LCELL( _EQ012);
  _EQ012 = !_LC2_A9
         #  ql3
         #  ql2;

-- Node name is ':113' 
-- Equation name is '_LC3_A22', type is buried 
!_LC3_A22 = _LC3_A22~NOT;
_LC3_A22~NOT = LCELL( _EQ013);
  _EQ013 =  qh0
         #  qh2
         #  qh3
         # !qh1;



Project Information                                            e:\hx\cnt24.rpt

** COMPILATION SETTINGS & TIMES **

Processing Menu Commands
------------------------

Design Doctor                             = off

Logic Synthesis:

   Synthesis Type Used                    = Multi-Level

   Default Synthesis Style                = NORMAL

      Logic option settings in 'NORMAL' style for 'FLEX10K' family

      CARRY_CHAIN                         = ignore
      CARRY_CHAIN_LENGTH                  = 32
      CASCADE_CHAIN                       = ignore
      CASCADE_CHAIN_LENGTH                = 2
      DECOMPOSE_GATES                     = on
      DUPLICATE_LOGIC_EXTRACTION          = on
      MINIMIZATION                        = full
      MULTI_LEVEL_FACTORING               = on
      NOT_GATE_PUSH_BACK                  = on
      REDUCE_LOGIC                        = on
      REFACTORIZATION                     = on
      REGISTER_OPTIMIZATION               = on
      RESYNTHESIZE_NETWORK                = on
      SLOW_SLEW_RATE                      = off
      SUBFACTOR_EXTRACTION                = on
      IGNORE_SOFT_BUFFERS                 = on
      USE_LPM_FOR_AHDL_OPERATORS          = off

   Other logic synthesis settings:

      Automatic Global Clock              = on
      Automatic Global Clear              = on
      Automatic Global Preset             = on
      Automatic Global Output Enable      = on
      Automatic Fast I/O                  = off
      Automatic Register Packing          = off
      Automatic Open-Drain Pins           = on
      Automatic Implement in EAB          = off
      Optimize                            = 5

Default Timing Specifications: None

Cut All Bidir Feedback Timing Paths       = on
Cut All Clear & Preset Timing Paths       = on

Ignore Timing Assignments                 = off

Functional SNF Extractor                  = off

Linked SNF Extractor                      = off
Timing SNF Extractor                      = on
Optimize Timing SNF                       = off
Generate AHDL TDO File                    = off
Fitter Settings                           = NORMAL
Use Quartus Fitter                        = on
Smart Recompile                           = off
Total Recompile                           = off

Interfaces Menu Commands
------------------------

EDIF Netlist Writer                       = off
Verilog Netlist Writer                    = off
VHDL Netlist Writer                       = off

Compilation Times
-----------------

   Compiler Netlist Extractor             00:00:00
   Database Builder                       00:00:00
   Logic Synthesizer                      00:00:00
   Partitioner                            00:00:00
   Fitter                                 00:00:02
   Timing SNF Extractor                   00:00:00
   Assembler                              00:00:00
   --------------------------             --------
   Total Time                             00:00:02


Memory Allocated
-----------------

Peak memory allocated during compilation  = 19,697K