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OpenSTA/graph/test/graph_bidirect.ok

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--- Test 1: graph with reconvergent paths ---
Startpoint: d1 (input port clocked by clk)
Endpoint: reg2 (rising edge-triggered flip-flop clocked by clk)
Path Group: clk
Path Type: max
Delay Time Description
---------------------------------------------------------
0.00 0.00 clock clk (rise edge)
0.00 0.00 clock network delay (ideal)
0.00 0.00 v input external delay
0.00 0.00 v d1 (in)
0.06 0.06 v buf1/Z (BUF_X1)
0.05 0.10 v or1/ZN (OR2_X1)
0.03 0.13 v and2/ZN (AND2_X1)
0.00 0.13 v reg2/D (DFF_X1)
0.13 data arrival time
10.00 10.00 clock clk (rise edge)
0.00 10.00 clock network delay (ideal)
0.00 10.00 clock reconvergence pessimism
10.00 ^ reg2/CK (DFF_X1)
-0.04 9.96 library setup time
9.96 data required time
---------------------------------------------------------
9.96 data required time
-0.13 data arrival time
---------------------------------------------------------
9.83 slack (MET)
Startpoint: d4 (input port clocked by clk)
Endpoint: reg3 (rising edge-triggered flip-flop clocked by clk)
Path Group: clk
Path Type: min
Delay Time Description
---------------------------------------------------------
0.00 0.00 clock clk (rise edge)
0.00 0.00 clock network delay (ideal)
0.00 0.00 ^ input external delay
0.00 0.00 ^ d4 (in)
0.01 0.01 v inv2/ZN (INV_X1)
0.02 0.03 ^ nand1/ZN (NAND2_X1)
0.02 0.05 ^ or2/ZN (OR2_X1)
0.00 0.05 ^ reg3/D (DFF_X1)
0.05 data arrival time
0.00 0.00 clock clk (rise edge)
0.00 0.00 clock network delay (ideal)
0.00 0.00 clock reconvergence pessimism
0.00 ^ reg3/CK (DFF_X1)
0.00 0.00 library hold time
0.00 data required time
---------------------------------------------------------
0.00 data required time
-0.05 data arrival time
---------------------------------------------------------
0.05 slack (MET)
--- Test 2: path queries ---
No paths found.
No paths found.
No paths found.
No paths found.
No paths found.
No paths found.
No paths found.
--- Test 3: report with fields ---
Warning 168: graph_bidirect.tcl line 1, unknown field nets.
Startpoint: d1 (input port clocked by clk)
Endpoint: reg2 (rising edge-triggered flip-flop clocked by clk)
Path Group: clk
Path Type: max
Fanout Cap Slew Delay Time Description
-----------------------------------------------------------------------------
0.00 0.00 0.00 clock clk (rise edge)
0.00 0.00 clock network delay (ideal)
0.00 0.00 v input external delay
1 0.88 0.10 0.00 0.00 v d1 (in)
0.10 0.00 0.00 v buf1/A (BUF_X1)
2 1.67 0.01 0.06 0.06 v buf1/Z (BUF_X1)
0.01 0.00 0.06 v or1/A1 (OR2_X1)
2 1.96 0.01 0.05 0.10 v or1/ZN (OR2_X1)
0.01 0.00 0.10 v and2/A2 (AND2_X1)
1 1.06 0.01 0.03 0.13 v and2/ZN (AND2_X1)
0.01 0.00 0.13 v reg2/D (DFF_X1)
0.13 data arrival time
0.00 10.00 10.00 clock clk (rise edge)
0.00 10.00 clock network delay (ideal)
0.00 10.00 clock reconvergence pessimism
10.00 ^ reg2/CK (DFF_X1)
-0.04 9.96 library setup time
9.96 data required time
-----------------------------------------------------------------------------
9.96 data required time
-0.13 data arrival time
-----------------------------------------------------------------------------
9.83 slack (MET)
Startpoint: d1 (input port clocked by clk)
Endpoint: reg2 (rising edge-triggered flip-flop clocked by clk)
Path Group: clk
Path Type: max
Delay Time Description
---------------------------------------------------------
0.00 0.00 clock clk (rise edge)
0.00 0.00 clock network delay (ideal)
0.00 0.00 v input external delay
0.00 0.00 v d1 (in)
0.06 0.06 v buf1/Z (BUF_X1)
0.05 0.10 v or1/ZN (OR2_X1)
0.03 0.13 v and2/ZN (AND2_X1)
0.00 0.13 v reg2/D (DFF_X1)
0.13 data arrival time
10.00 10.00 clock clk (rise edge)
0.00 10.00 clock network delay (ideal)
0.00 10.00 clock reconvergence pessimism
10.00 ^ reg2/CK (DFF_X1)
-0.04 9.96 library setup time
9.96 data required time
---------------------------------------------------------
9.96 data required time
-0.13 data arrival time
---------------------------------------------------------
9.83 slack (MET)
Startpoint: d4 (input port clocked by clk)
Endpoint: reg3 (rising edge-triggered flip-flop clocked by clk)
Path Group: clk
Path Type: min
Cap Slew Delay Time Description
-----------------------------------------------------------------------
0.00 0.00 0.00 clock clk (rise edge)
0.00 0.00 clock network delay (ideal)
0.00 0.00 ^ input external delay
1.70 0.10 0.00 0.00 ^ d4 (in)
3.07 0.02 0.01 0.01 v inv2/ZN (INV_X1)
0.95 0.01 0.02 0.03 ^ nand1/ZN (NAND2_X1)
1.14 0.01 0.02 0.05 ^ or2/ZN (OR2_X1)
0.01 0.00 0.05 ^ reg3/D (DFF_X1)
0.05 data arrival time
0.00 0.00 0.00 clock clk (rise edge)
0.00 0.00 clock network delay (ideal)
0.00 0.00 clock reconvergence pessimism
0.00 ^ reg3/CK (DFF_X1)
0.00 0.00 library hold time
0.00 data required time
-----------------------------------------------------------------------
0.00 data required time
-0.05 data arrival time
-----------------------------------------------------------------------
0.05 slack (MET)
--- Test 4: fanin/fanout ---
fanin to q2: 3
fanout from d1: 13
fanin cells to q2: 2
fanout cells from d1: 8
fanin to q3: 3
fanout from d3: 14
--- Test 5: report_dcalc ---
Library: NangateOpenCellLibrary
Cell: BUF_X1
Arc sense: positive_unate
Arc type: combinational
A ^ -> Z ^
P = 1.00 V = 1.10 T = 25.00
------- input_net_transition = 0.10
| total_output_net_capacitance = 1.86
| 0.37 1.90
v --------------------
0.08 | 0.03 0.03
0.13 | 0.03 0.04
Table value = 0.03
PVT scale factor = 1.00
Delay = 0.03
------- input_net_transition = 0.10
| total_output_net_capacitance = 1.86
| 0.37 1.90
v --------------------
0.08 | 0.01 0.01
0.13 | 0.01 0.01
Table value = 0.01
PVT scale factor = 1.00
Slew = 0.01
Driver waveform slew = 0.01
.............................................
A v -> Z v
P = 1.00 V = 1.10 T = 25.00
------- input_net_transition = 0.10
| total_output_net_capacitance = 1.67
| 0.37 1.90
v --------------------
0.08 | 0.05 0.05
0.13 | 0.06 0.07
Table value = 0.06
PVT scale factor = 1.00
Delay = 0.06
------- input_net_transition = 0.10
| total_output_net_capacitance = 1.67
| 0.37 1.90
v --------------------
0.08 | 0.01 0.01
0.13 | 0.01 0.01
Table value = 0.01
PVT scale factor = 1.00
Slew = 0.01
Driver waveform slew = 0.01
.............................................
dcalc buf1: done
Library: NangateOpenCellLibrary
Cell: AND2_X1
Arc sense: positive_unate
Arc type: combinational
A1 ^ -> ZN ^
P = 1.00 V = 1.10 T = 25.00
------- input_net_transition = 0.01
| total_output_net_capacitance = 2.06
| 1.89 3.79
v --------------------
0.00 | 0.03 0.03
0.02 | 0.03 0.04
Table value = 0.03
PVT scale factor = 1.00
Delay = 0.03
------- input_net_transition = 0.01
| total_output_net_capacitance = 2.06
| 1.89 3.79
v --------------------
0.00 | 0.01 0.01
0.02 | 0.01 0.01
Table value = 0.01
PVT scale factor = 1.00
Slew = 0.01
Driver waveform slew = 0.01
.............................................
A1 v -> ZN v
P = 1.00 V = 1.10 T = 25.00
------- input_net_transition = 0.01
| total_output_net_capacitance = 1.94
| 1.89 3.79
v --------------------
0.00 | 0.03 0.03
0.02 | 0.03 0.04
Table value = 0.03
PVT scale factor = 1.00
Delay = 0.03
------- input_net_transition = 0.01
| total_output_net_capacitance = 1.94
| 1.89 3.79
v --------------------
0.00 | 0.01 0.01
0.02 | 0.01 0.01
Table value = 0.01
PVT scale factor = 1.00
Slew = 0.01
Driver waveform slew = 0.01
.............................................
dcalc and1 A1: done
Library: NangateOpenCellLibrary
Cell: AND2_X1
Arc sense: positive_unate
Arc type: combinational
A2 ^ -> ZN ^
P = 1.00 V = 1.10 T = 25.00
------- input_net_transition = 0.01
| total_output_net_capacitance = 2.06
| 1.89 3.79
v --------------------
0.00 | 0.03 0.04
0.02 | 0.03 0.04
Table value = 0.03
PVT scale factor = 1.00
Delay = 0.03
------- input_net_transition = 0.01
| total_output_net_capacitance = 2.06
| 1.89 3.79
v --------------------
0.00 | 0.01 0.01
0.02 | 0.01 0.01
Table value = 0.01
PVT scale factor = 1.00
Slew = 0.01
Driver waveform slew = 0.01
.............................................
A2 v -> ZN v
P = 1.00 V = 1.10 T = 25.00
------- input_net_transition = 0.01
| total_output_net_capacitance = 1.94
| 1.89 3.79
v --------------------
0.00 | 0.03 0.03
0.02 | 0.04 0.04
Table value = 0.03
PVT scale factor = 1.00
Delay = 0.03
------- input_net_transition = 0.01
| total_output_net_capacitance = 1.94
| 1.89 3.79
v --------------------
0.00 | 0.01 0.01
0.02 | 0.01 0.01
Table value = 0.01
PVT scale factor = 1.00
Slew = 0.01
Driver waveform slew = 0.01
.............................................
dcalc and1 A2: done
Library: NangateOpenCellLibrary
Cell: OR2_X1
Arc sense: positive_unate
Arc type: combinational
A1 ^ -> ZN ^
P = 1.00 V = 1.10 T = 25.00
------- input_net_transition = 0.01
| total_output_net_capacitance = 2.11
| 1.89 3.79
v --------------------
0.00 | 0.02 0.03
0.02 | 0.03 0.03
Table value = 0.02
PVT scale factor = 1.00
Delay = 0.02
------- input_net_transition = 0.01
| total_output_net_capacitance = 2.11
| 1.89 3.79
v --------------------
0.00 | 0.01 0.01
0.02 | 0.01 0.01
Table value = 0.01
PVT scale factor = 1.00
Slew = 0.01
Driver waveform slew = 0.01
.............................................
A1 v -> ZN v
P = 1.00 V = 1.10 T = 25.00
------- input_net_transition = 0.01
| total_output_net_capacitance = 1.96
| 1.89 3.79
v --------------------
0.00 | 0.04 0.05
0.02 | 0.05 0.05
Table value = 0.05
PVT scale factor = 1.00
Delay = 0.05
------- input_net_transition = 0.01
| total_output_net_capacitance = 1.96
| 1.89 3.79
v --------------------
0.00 | 0.01 0.01
0.02 | 0.01 0.01
Table value = 0.01
PVT scale factor = 1.00
Slew = 0.01
Driver waveform slew = 0.01
.............................................
dcalc or1 A1: done
Library: NangateOpenCellLibrary
Cell: NAND2_X1
Arc sense: negative_unate
Arc type: combinational
A1 ^ -> ZN v
P = 1.00 V = 1.10 T = 25.00
------- input_net_transition = 0.01
| total_output_net_capacitance = 0.79
| 0.37 1.85
v --------------------
0.00 | 0.01 0.01
0.02 | 0.01 0.02
Table value = 0.01
PVT scale factor = 1.00
Delay = 0.01
------- input_net_transition = 0.01
| total_output_net_capacitance = 0.79
| 0.37 1.85
v --------------------
0.00 | 0.00 0.01
0.02 | 0.01 0.01
Table value = 0.01
PVT scale factor = 1.00
Slew = 0.01
Driver waveform slew = 0.01
.............................................
A1 v -> ZN ^
P = 1.00 V = 1.10 T = 25.00
------- input_net_transition = 0.01
| total_output_net_capacitance = 0.95
| 0.37 1.85
v --------------------
0.00 | 0.01 0.01
0.02 | 0.01 0.02
Table value = 0.01
PVT scale factor = 1.00
Delay = 0.01
------- input_net_transition = 0.01
| total_output_net_capacitance = 0.95
| 0.37 1.85
v --------------------
0.00 | 0.00 0.01
0.02 | 0.01 0.01
Table value = 0.01
PVT scale factor = 1.00
Slew = 0.01
Driver waveform slew = 0.01
.............................................
dcalc nand1: done
Library: NangateOpenCellLibrary
Cell: NOR2_X1
Arc sense: negative_unate
Arc type: combinational
A1 ^ -> ZN v
P = 1.00 V = 1.10 T = 25.00
------- input_net_transition = 0.02
| total_output_net_capacitance = 0.90
| 0.83 1.67
v --------------------
0.02 | 0.01 0.01
0.04 | 0.01 0.01
Table value = 0.01
PVT scale factor = 1.00
Delay = 0.01
------- input_net_transition = 0.02
| total_output_net_capacitance = 0.90
| 0.83 1.67
v --------------------
0.02 | 0.01 0.01
0.04 | 0.01 0.01
Table value = 0.01
PVT scale factor = 1.00
Slew = 0.01
Driver waveform slew = 0.01
.............................................
A1 v -> ZN ^
P = 1.00 V = 1.10 T = 25.00
------- input_net_transition = 0.02
| total_output_net_capacitance = 0.94
| 0.83 1.67
v --------------------
0.02 | 0.02 0.03
0.04 | 0.03 0.04
Table value = 0.02
PVT scale factor = 1.00
Delay = 0.02
------- input_net_transition = 0.02
| total_output_net_capacitance = 0.94
| 0.83 1.67
v --------------------
0.02 | 0.01 0.02
0.04 | 0.02 0.02
Table value = 0.01
PVT scale factor = 1.00
Slew = 0.01
Driver waveform slew = 0.01
.............................................
dcalc nor1: done
Library: NangateOpenCellLibrary
Cell: DFF_X1
Arc sense: non_unate
Arc type: Reg Clk to Q
CK ^ -> Q ^
P = 1.00 V = 1.10 T = 25.00
------- input_net_transition = 0.00
| total_output_net_capacitance = 0.00
| 0.37 1.90
v --------------------
0.00 | 0.08 0.09
0.00 | 0.08 0.09
Table value = 0.08
PVT scale factor = 1.00
Delay = 0.08
------- input_net_transition = 0.00
| total_output_net_capacitance = 0.00
| 0.37 1.90
v --------------------
0.00 | 0.01 0.01
0.00 | 0.01 0.01
Table value = 0.01
PVT scale factor = 1.00
Slew = 0.01
Driver waveform slew = 0.01
.............................................
CK ^ -> Q v
P = 1.00 V = 1.10 T = 25.00
------- input_net_transition = 0.00
| total_output_net_capacitance = 0.00
| 0.37 1.90
v --------------------
0.00 | 0.08 0.08
0.00 | 0.08 0.08
Table value = 0.08
PVT scale factor = 1.00
Delay = 0.08
------- input_net_transition = 0.00
| total_output_net_capacitance = 0.00
| 0.37 1.90
v --------------------
0.00 | 0.01 0.01
0.00 | 0.01 0.01
Table value = 0.00
PVT scale factor = 1.00
Slew = 0.00
Driver waveform slew = 0.00
.............................................
dcalc reg1: done
--- Test 6: network queries ---
total pins: 50
total nets: 19
Net n1
Pin capacitance: 1.67-1.86
Wire capacitance: 0.00
Total capacitance: 1.67-1.86
Number of drivers: 1
Number of loads: 2
Number of pins: 3
Driver pins
buf1/Z output (BUF_X1)
Load pins
and1/A1 input (AND2_X1) 0.87-0.92
or1/A1 input (OR2_X1) 0.79-0.95
Net n2
Pin capacitance: 2.42-2.57
Wire capacitance: 0.00
Total capacitance: 2.42-2.57
Number of drivers: 1
Number of loads: 2
Number of pins: 3
Driver pins
buf2/Z output (BUF_X1)
Load pins
and1/A2 input (AND2_X1) 0.89-0.97
nand1/A1 input (NAND2_X1) 1.53-1.60
Net n3
Pin capacitance: 2.31-2.66
Wire capacitance: 0.00
Total capacitance: 2.31-2.66
Number of drivers: 1
Number of loads: 2
Number of pins: 3
Driver pins
inv1/ZN output (INV_X1)
Load pins
nor1/A1 input (NOR2_X1) 1.41-1.71
or1/A2 input (OR2_X1) 0.90-0.94
Net n4
Pin capacitance: 3.07-3.32
Wire capacitance: 0.00
Total capacitance: 3.07-3.32
Number of drivers: 1
Number of loads: 2
Number of pins: 3
Driver pins
inv2/ZN output (INV_X1)
Load pins
nand1/A2 input (NAND2_X1) 1.50-1.66
nor1/A2 input (NOR2_X1) 1.56-1.65
Net n5
Pin capacitance: 1.94-2.06
Wire capacitance: 0.00
Total capacitance: 1.94-2.06
Number of drivers: 1
Number of loads: 2
Number of pins: 3
Driver pins
and1/ZN output (AND2_X1)
Load pins
and2/A1 input (AND2_X1) 0.87-0.92
reg1/D input (DFF_X1) 1.06-1.14
Net n6
Pin capacitance: 1.96-2.11
Wire capacitance: 0.00
Total capacitance: 1.96-2.11
Number of drivers: 1
Number of loads: 2
Number of pins: 3
Driver pins
or1/ZN output (OR2_X1)
Load pins
and2/A2 input (AND2_X1) 0.89-0.97
reg4/D input (DFF_X1) 1.06-1.14
Net n7
Pin capacitance: 0.79-0.95
Wire capacitance: 0.00
Total capacitance: 0.79-0.95
Number of drivers: 1
Number of loads: 1
Number of pins: 2
Driver pins
nand1/ZN output (NAND2_X1)
Load pins
or2/A1 input (OR2_X1) 0.79-0.95
Net n8
Pin capacitance: 0.90-0.94
Wire capacitance: 0.00
Total capacitance: 0.90-0.94
Number of drivers: 1
Number of loads: 1
Number of pins: 2
Driver pins
nor1/ZN output (NOR2_X1)
Load pins
or2/A2 input (OR2_X1) 0.90-0.94
Net n9
Pin capacitance: 1.06-1.14
Wire capacitance: 0.00
Total capacitance: 1.06-1.14
Number of drivers: 1
Number of loads: 1
Number of pins: 2
Driver pins
and2/ZN output (AND2_X1)
Load pins
reg2/D input (DFF_X1) 1.06-1.14
Net n10
Pin capacitance: 1.06-1.14
Wire capacitance: 0.00
Total capacitance: 1.06-1.14
Number of drivers: 1
Number of loads: 1
Number of pins: 2
Driver pins
or2/ZN output (OR2_X1)
Load pins
reg3/D input (DFF_X1) 1.06-1.14
Instance buf1
Cell: BUF_X1
Library: NangateOpenCellLibrary
Path cells: BUF_X1
Input pins:
A input d1
Output pins:
Z output n1
Other pins:
VDD power (unconnected)
VSS ground (unconnected)
Instance buf2
Cell: BUF_X1
Library: NangateOpenCellLibrary
Path cells: BUF_X1
Input pins:
A input d2
Output pins:
Z output n2
Other pins:
VDD power (unconnected)
VSS ground (unconnected)
Instance inv1
Cell: INV_X1
Library: NangateOpenCellLibrary
Path cells: INV_X1
Input pins:
A input d3
Output pins:
ZN output n3
Other pins:
VDD power (unconnected)
VSS ground (unconnected)
Instance inv2
Cell: INV_X1
Library: NangateOpenCellLibrary
Path cells: INV_X1
Input pins:
A input d4
Output pins:
ZN output n4
Other pins:
VDD power (unconnected)
VSS ground (unconnected)
Instance and1
Cell: AND2_X1
Library: NangateOpenCellLibrary
Path cells: AND2_X1
Input pins:
A1 input n1
A2 input n2
Output pins:
ZN output n5
Other pins:
VDD power (unconnected)
VSS ground (unconnected)
Instance or1
Cell: OR2_X1
Library: NangateOpenCellLibrary
Path cells: OR2_X1
Input pins:
A1 input n1
A2 input n3
Output pins:
ZN output n6
Other pins:
VDD power (unconnected)
VSS ground (unconnected)
Instance nand1
Cell: NAND2_X1
Library: NangateOpenCellLibrary
Path cells: NAND2_X1
Input pins:
A1 input n2
A2 input n4
Output pins:
ZN output n7
Other pins:
VDD power (unconnected)
VSS ground (unconnected)
Instance nor1
Cell: NOR2_X1
Library: NangateOpenCellLibrary
Path cells: NOR2_X1
Input pins:
A1 input n3
A2 input n4
Output pins:
ZN output n8
Other pins:
VDD power (unconnected)
VSS ground (unconnected)
Instance and2
Cell: AND2_X1
Library: NangateOpenCellLibrary
Path cells: AND2_X1
Input pins:
A1 input n5
A2 input n6
Output pins:
ZN output n9
Other pins:
VDD power (unconnected)
VSS ground (unconnected)
Instance or2
Cell: OR2_X1
Library: NangateOpenCellLibrary
Path cells: OR2_X1
Input pins:
A1 input n7
A2 input n8
Output pins:
ZN output n10
Other pins:
VDD power (unconnected)
VSS ground (unconnected)
Instance reg1
Cell: DFF_X1
Library: NangateOpenCellLibrary
Path cells: DFF_X1
Input pins:
D input n5
CK input clk
Output pins:
Q output q1
QN output (unconnected)
Other pins:
VDD power (unconnected)
VSS ground (unconnected)
IQ internal (unconnected)
IQN internal (unconnected)
Instance reg2
Cell: DFF_X1
Library: NangateOpenCellLibrary
Path cells: DFF_X1
Input pins:
D input n9
CK input clk
Output pins:
Q output q2
QN output (unconnected)
Other pins:
VDD power (unconnected)
VSS ground (unconnected)
IQ internal (unconnected)
IQN internal (unconnected)
Instance reg3
Cell: DFF_X1
Library: NangateOpenCellLibrary
Path cells: DFF_X1
Input pins:
D input n10
CK input clk
Output pins:
Q output q3
QN output (unconnected)
Other pins:
VDD power (unconnected)
VSS ground (unconnected)
IQ internal (unconnected)
IQN internal (unconnected)
Instance reg4
Cell: DFF_X1
Library: NangateOpenCellLibrary
Path cells: DFF_X1
Input pins:
D input n6
CK input clk
Output pins:
Q output q4
QN output (unconnected)
Other pins:
VDD power (unconnected)
VSS ground (unconnected)
IQ internal (unconnected)
IQN internal (unconnected)
--- Test 7: modify graph ---
Startpoint: d1 (input port clocked by clk)
Endpoint: reg2 (rising edge-triggered flip-flop clocked by clk)
Path Group: clk
Path Type: max
Delay Time Description
---------------------------------------------------------
0.00 0.00 clock clk (rise edge)
0.00 0.00 clock network delay (ideal)
0.00 0.00 v input external delay
0.00 0.00 v d1 (in)
0.06 0.06 v buf1/Z (BUF_X1)
0.05 0.10 v or1/ZN (OR2_X1)
0.03 0.13 v and2/ZN (AND2_X1)
0.00 0.13 v reg2/D (DFF_X1)
0.13 data arrival time
10.00 10.00 clock clk (rise edge)
0.00 10.00 clock network delay (ideal)
0.00 10.00 clock reconvergence pessimism
10.00 ^ reg2/CK (DFF_X1)
-0.04 9.96 library setup time
9.96 data required time
---------------------------------------------------------
9.96 data required time
-0.13 data arrival time
---------------------------------------------------------
9.83 slack (MET)
Startpoint: d1 (input port clocked by clk)
Endpoint: reg2 (rising edge-triggered flip-flop clocked by clk)
Path Group: clk
Path Type: max
Delay Time Description
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0.00 0.00 clock clk (rise edge)
0.00 0.00 clock network delay (ideal)
0.00 0.00 v input external delay
0.00 0.00 v d1 (in)
0.06 0.06 v buf1/Z (BUF_X1)
0.05 0.10 v or1/ZN (OR2_X1)
0.03 0.13 v and2/ZN (AND2_X1)
0.00 0.13 v reg2/D (DFF_X1)
0.13 data arrival time
10.00 10.00 clock clk (rise edge)
0.00 10.00 clock network delay (ideal)
0.00 10.00 clock reconvergence pessimism
10.00 ^ reg2/CK (DFF_X1)
-0.04 9.96 library setup time
9.96 data required time
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9.96 data required time
-0.13 data arrival time
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9.83 slack (MET)
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