--- get_fanin -to output pin -flat --- fanin flat pin count: 3 --- get_fanin -to output pin -only_cells --- fanin cells count: 2 --- get_fanin -to output pin -startpoints_only --- fanin startpoints count: 1 --- get_fanout -from input pin -flat --- fanout flat pin count: 6 --- get_fanout -from input pin -only_cells --- fanout cells count: 4 --- get_fanout -from input pin -endpoints_only --- fanout endpoints count: 1 --- get_fanin with -trace_arcs timing --- fanin timing trace count: 3 --- get_fanin with -trace_arcs enabled --- fanin enabled trace count: 3 --- get_fanin with -trace_arcs all --- fanin all trace count: 3 --- get_fanout with -trace_arcs all --- fanout all trace count: 6 --- get_fanin with -levels --- fanin levels=1 count: 3 --- get_fanin with -pin_levels --- fanin pin_levels=2 count: 3 --- get_fanout with -levels --- fanout levels=1 count: 3 --- get_fanout with -pin_levels --- fanout pin_levels=2 count: 3 --- get_cells -hierarchical --- hierarchical cells count: 3 --- get_nets -hierarchical --- hierarchical nets count: 6 --- get_pins -hierarchical --- hierarchical pins count: 11 --- report_instance buf1 --- Instance buf1 Cell: BUF_X1 Library: NangateOpenCellLibrary Path cells: BUF_X1 Input pins: A input in1 Output pins: Z output n1 Other pins: VDD power (unconnected) VSS ground (unconnected) --- report_instance and1 --- Instance and1 Cell: AND2_X1 Library: NangateOpenCellLibrary Path cells: AND2_X1 Input pins: A1 input n1 A2 input in2 Output pins: ZN output n2 Other pins: VDD power (unconnected) VSS ground (unconnected) --- report_instance reg1 --- Instance reg1 Cell: DFF_X1 Library: NangateOpenCellLibrary Path cells: DFF_X1 Input pins: D input n2 CK input clk Output pins: Q output out1 QN output (unconnected) Other pins: IQ internal (unconnected) IQN internal (unconnected) VDD power (unconnected) VSS ground (unconnected) --- report_net n1 --- Net n1 Pin capacitance: 0.87-0.92 Wire capacitance: 0.00 Total capacitance: 0.87-0.92 Number of drivers: 1 Number of loads: 1 Number of pins: 2 Driver pins buf1/Z output (BUF_X1) Load pins and1/A1 input (AND2_X1) 0.87-0.92 --- report_net n2 --- Net n2 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 and1/ZN output (AND2_X1) Load pins reg1/D input (DFF_X1) 1.06-1.14 --- get_full_name / get_name for instances --- buf1 full_name: buf1 buf1 name: buf1 --- get_full_name / get_name for nets --- n1 full_name: n1 n1 name: n1 --- get_full_name / get_name for pins --- buf1/A full_name: buf1/A --- get_full_name / get_name for ports --- in1 full_name: in1 in1 name: in1 --- all_inputs --- all_inputs count: 3 --- all_outputs --- all_outputs count: 1 --- all_clocks --- all_clocks count: 1 --- get_ports -filter direction == input --- input ports count: 3 --- get_cells -filter ref_name == BUF_X1 --- BUF_X1 cells count: 1 --- get_cells -filter ref_name == AND2_X1 --- AND2_X1 cells count: 1 --- get_cells -filter ref_name == DFF_X1 --- DFF_X1 cells count: 1 --- report_checks to verify timing graph --- Startpoint: in1 (input port clocked by clk) Endpoint: reg1 (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 in1 (in) 0.02 0.02 v buf1/Z (BUF_X1) 0.02 0.05 v and1/ZN (AND2_X1) 0.00 0.05 v reg1/D (DFF_X1) 0.05 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 ^ reg1/CK (DFF_X1) -0.04 9.96 library setup time 9.96 data required time --------------------------------------------------------- 9.96 data required time -0.05 data arrival time --------------------------------------------------------- 9.92 slack (MET)