Release 12.3 Map M.70d (nt64) Xilinx Map Application Log File for Design 'MultiMPITest' Design Information ------------------ Command Line : map -intstyle ise -p xc6slx100-fgg484-3 -w -logic_opt off -ol high -t 1 -xt 0 -register_duplication off -global_opt off -mt off -ir off -pr off -lc off -power off -o MultiMPITest_map.ncd MultiMPITest.ngd MultiMPITest.pcf Target Device : xc6slx100 Target Package : fgg484 Target Speed : -3 Mapper Version : spartan6 -- $Revision: 1.52 $ Mapped Date : Tue Aug 14 16:09:02 2012 vvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvv INFO:Security:56 - Part 'xc6slx100' is not a WebPack part. WARNING:Security:42 - Your software subscription period has lapsed. Your current version of Xilinx tools will continue to function, but you no longer qualify for Xilinx software updates or new releases. ---------------------------------------------------------------------- Mapping design into LUTs... Running directed packing... Running delay-based LUT packing... Updating timing models... INFO:Map:215 - The Interim Design Summary has been generated in the MAP Report (.mrp). Running timing-driven placement... Total REAL time at the beginning of Placer: 19 secs Total CPU time at the beginning of Placer: 17 secs Phase 1.1 Initial Placement Analysis Phase 1.1 Initial Placement Analysis (Checksum:1bc559d) REAL time: 24 secs Phase 2.7 Design Feasibility Check Phase 2.7 Design Feasibility Check (Checksum:1bc559d) REAL time: 25 secs Phase 3.31 Local Placement Optimization Phase 3.31 Local Placement Optimization (Checksum:1bc559d) REAL time: 25 secs Phase 4.2 Initial Placement for Architecture Specific Features ...... Phase 4.2 Initial Placement for Architecture Specific Features (Checksum:3f0f921f) REAL time: 33 secs Phase 5.36 Local Placement Optimization Phase 5.36 Local Placement Optimization (Checksum:3f0f921f) REAL time: 33 secs Phase 6.30 Global Clock Region Assignment Phase 6.30 Global Clock Region Assignment (Checksum:3f0f921f) REAL time: 33 secs Phase 7.3 Local Placement Optimization .... Phase 7.3 Local Placement Optimization (Checksum:49665fbf) REAL time: 34 secs Phase 8.5 Local Placement Optimization Phase 8.5 Local Placement Optimization (Checksum:49665fbf) REAL time: 34 secs Phase 9.8 Global Placement ........................................................ ......................................................................................................................................................................................... ......................................................... ....................................... Phase 9.8 Global Placement (Checksum:1156e879) REAL time: 1 mins 19 secs Phase 10.5 Local Placement Optimization Phase 10.5 Local Placement Optimization (Checksum:1156e879) REAL time: 1 mins 19 secs Phase 11.18 Placement Optimization Phase 11.18 Placement Optimization (Checksum:7caf5c44) REAL time: 1 mins 58 secs Phase 12.5 Local Placement Optimization Phase 12.5 Local Placement Optimization (Checksum:7caf5c44) REAL time: 1 mins 58 secs Phase 13.34 Placement Validation Phase 13.34 Placement Validation (Checksum:1a5ac37f) REAL time: 1 mins 58 secs Total REAL time to Placer completion: 1 mins 58 secs Total CPU time to Placer completion: 1 mins 54 secs Running post-placement packing... Writing output files... WARNING:PhysDesignRules:372 - Gated clock. Clock net PE2/N315 is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net PE1/etPutGet_FSM_FFd7 is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[1].hardmpi/ex4_ram_wr is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[2].hardmpi/ex4_ram_wr is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[1].hardmpi/MPI_CORE_EX4_FSM/etcmd[3]_PWR_534_o_Mux_739_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[2].hardmpi/MPI_CORE_EX4_FSM/etcmd[3]_PWR_534_o_Mux_739_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[1].hardmpi/Mram_dma_wr_grant[4]_GND_656_o_Mux_42_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[2].hardmpi/Mram_dma_wr_grant[4]_GND_656_o_Mux_42_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[1].hardmpi/LD_instr/etloadinst[2]_PWR_99_o_Mux_295_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[2].hardmpi/LD_instr/etloadinst[2]_PWR_99_o_Mux_295_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[1].hardmpi/MPI_CORE_EX4_FSM/stInit2_FSM_FFd7 is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[1].hardmpi/MPI_CORE_EX4_FSM/stInit2[3]_PWR_290_o_Mux_59_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[2].hardmpi/MPI_CORE_EX4_FSM/stInit2[3]_PWR_290_o_Mux_59_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[1].hardmpi/LD_instr/etloadinst[2]_PWR_148_o_Mux_387_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[2].hardmpi/LD_instr/etloadinst[2]_PWR_148_o_Mux_387_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[1].hardmpi/LD_instr/etloadinst[2]_PWR_72_o_Mux_259_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[2].hardmpi/LD_instr/etloadinst[2]_PWR_72_o_Mux_259_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net PE1/etPutGet[3]_PWR_594_o_Mux_268_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[1].hardmpi/LD_instr/etloadinst[2]_PWR_44_o_Mux_211_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[1].hardmpi/LD_instr/etloadinst[2]_PWR_93_o_Mux_287_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[2].hardmpi/LD_instr/etloadinst[2]_PWR_93_o_Mux_287_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[1].hardmpi/LD_instr/etloadinst[2]_PWR_105_o_Mux_303_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[2].hardmpi/LD_instr/etloadinst[2]_PWR_105_o_Mux_303_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[2].hardmpi/LD_instr/etloadinst[2]_PWR_44_o_Mux_211_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[1].hardmpi/LD_instr/etloadinst[2]_PWR_66_o_Mux_251_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[2].hardmpi/LD_instr/etloadinst[2]_PWR_66_o_Mux_251_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[1].hardmpi/LD_instr/etloadinst[2]_PWR_90_o_Mux_283_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[2].hardmpi/LD_instr/etloadinst[2]_PWR_90_o_Mux_283_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[2].hardmpi/LD_instr/etloadinst[2]_PWR_108_o_Mux_307_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[1].hardmpi/LD_instr/etloadinst[2]_PWR_102_o_Mux_299_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[2].hardmpi/LD_instr/etloadinst[2]_PWR_102_o_Mux_299_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[1].hardmpi/MPI_CORE_EX4_FSM/stInit2[3]_PWR_291_o_Mux_61_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[2].hardmpi/MPI_CORE_EX4_FSM/stInit2[3]_PWR_291_o_Mux_61_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[1].hardmpi/MPI_CORE_EX4_FSM/stInit2[3]_PWR_299_o_Mux_77_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[2].hardmpi/MPI_CORE_EX4_FSM/stInit2[3]_PWR_299_o_Mux_77_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[1].hardmpi/LD_instr/etloadinst[2]_PWR_69_o_Mux_255_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[2].hardmpi/LD_instr/etloadinst[2]_PWR_69_o_Mux_255_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[1].hardmpi/LD_instr/etloadinst[2]_PWR_84_o_Mux_275_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[2].hardmpi/LD_instr/etloadinst[2]_PWR_84_o_Mux_275_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[2].hardmpi/LD_instr/etloadinst[2]_PWR_39_o_Mux_201_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[1].hardmpi/LD_instr/etloadinst[2]_PWR_81_o_Mux_271_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[2].hardmpi/LD_instr/etloadinst[2]_PWR_81_o_Mux_271_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[1].hardmpi/LD_instr/etloadinst[2]_PWR_124_o_Mux_339_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[2].hardmpi/LD_instr/etloadinst[2]_PWR_124_o_Mux_339_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[1].hardmpi/MPI_CORE_EX4_FSM/stInit2[3]_PWR_432_o_Mux_383_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[2].hardmpi/MPI_CORE_EX4_FSM/stInit2[3]_PWR_432_o_Mux_383_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[1].hardmpi/LD_instr/etloadinst[2]_PWR_164_o_Mux_419_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[2].hardmpi/LD_instr/etloadinst[2]_PWR_164_o_Mux_419_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[1].hardmpi/LD_instr/etloadinst[2]_PWR_60_o_Mux_243_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[2].hardmpi/LD_instr/etloadinst[2]_PWR_60_o_Mux_243_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[1].hardmpi/LD_instr/etloadinst[2]_PWR_87_o_Mux_279_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[2].hardmpi/LD_instr/etloadinst[2]_PWR_87_o_Mux_279_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[2].hardmpi/LD_instr/etloadinst[2]_PWR_78_o_Mux_267_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[1].hardmpi/LD_instr/etloadinst[2]_PWR_96_o_Mux_291_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[2].hardmpi/LD_instr/etloadinst[2]_PWR_96_o_Mux_291_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[1].hardmpi/LD_instr/etloadinst[2]_PWR_132_o_Mux_355_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[2].hardmpi/LD_instr/etloadinst[2]_PWR_132_o_Mux_355_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[1].hardmpi/LD_instr/etloadinst[2]_PWR_39_o_Mux_201_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[1].hardmpi/LD_instr/etloadinst[2]_PWR_38_o_Mux_199_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[2].hardmpi/LD_instr/etloadinst[2]_PWR_38_o_Mux_199_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[1].hardmpi/MPI_CORE_EX4_FSM/stInit2[3]_PWR_278_o_Mux_43_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[2].hardmpi/MPI_CORE_EX4_FSM/stInit2[3]_PWR_278_o_Mux_43_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[1].hardmpi/MPI_CORE_EX4_FSM/stInit2[3]_PWR_316_o_Mux_111_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[2].hardmpi/LD_instr/etloadinst[2]_PWR_140_o_Mux_371_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[1].hardmpi/LD_instr/etloadinst[2]_PWR_140_o_Mux_371_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[2].hardmpi/MPI_CORE_EX4_FSM/stInit2[3]_PWR_316_o_Mux_111_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net PE2/etPutGet[3]_PWR_639_o_Mux_268_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[2].hardmpi/LD_instr/etloadinst[2]_PWR_75_o_Mux_263_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[2].hardmpi/LD_instr/etloadinst[2]_PWR_63_o_Mux_247_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[1].hardmpi/LD_instr/etloadinst[2]_PWR_63_o_Mux_247_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[2].hardmpi/LD_instr/N117 is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[1].hardmpi/LD_instr/N117 is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[1].hardmpi/LD_instr/etloadinst[2]_PWR_108_o_Mux_307_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[1].hardmpi/LD_instr/etloadinst[2]_PWR_75_o_Mux_263_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:372 - Gated clock. Clock net uut/connect_core[1].hardmpi/LD_instr/etloadinst[2]_PWR_78_o_Mux_267_o is sourced by a combinatorial pin. This is not good design practice. Use the CE pin to control the loading of data into the flip-flop. WARNING:PhysDesignRules:367 - The signal is incomplete. The signal does not drive any load pins in the design. WARNING:PhysDesignRules:367 - The signal is incomplete. The signal does not drive any load pins in the design. WARNING:PhysDesignRules:367 - The signal is incomplete. The signal does not drive any load pins in the design. WARNING:PhysDesignRules:367 - The signal is incomplete. The signal does not drive any load pins in the design. WARNING:PhysDesignRules:367 - The signal is incomplete. The signal does not drive any load pins in the design. WARNING:PhysDesignRules:367 - The signal is incomplete. The signal does not drive any load pins in the design. WARNING:PhysDesignRules:367 - The signal is incomplete. The signal does not drive any load pins in the design. WARNING:PhysDesignRules:367 - The signal is incomplete. The signal does not drive any load pins in the design. Design Summary -------------- Design Summary: Number of errors: 0 Number of warnings: 83 Slice Logic Utilization: Number of Slice Registers: 1,515 out of 126,576 1% Number used as Flip Flops: 1,137 Number used as Latches: 378 Number used as Latch-thrus: 0 Number used as AND/OR logics: 0 Number of Slice LUTs: 3,025 out of 63,288 4% Number used as logic: 2,942 out of 63,288 4% Number using O6 output only: 2,058 Number using O5 output only: 294 Number using O5 and O6: 590 Number used as ROM: 0 Number used as Memory: 48 out of 15,616 1% Number used as Dual Port RAM: 48 Number using O6 output only: 48 Number using O5 output only: 0 Number using O5 and O6: 0 Number used as Single Port RAM: 0 Number used as Shift Register: 0 Number used exclusively as route-thrus: 35 Number with same-slice register load: 7 Number with same-slice carry load: 28 Number with other load: 0 Slice Logic Distribution: Number of occupied Slices: 1,099 out of 15,822 6% Number of LUT Flip Flop pairs used: 3,230 Number with an unused Flip Flop: 1,806 out of 3,230 55% Number with an unused LUT: 205 out of 3,230 6% Number of fully used LUT-FF pairs: 1,219 out of 3,230 37% Number of unique control sets: 226 Number of slice register sites lost to control set restrictions: 749 out of 126,576 1% A LUT Flip Flop pair for this architecture represents one LUT paired with one Flip Flop within a slice. A control set is a unique combination of clock, reset, set, and enable signals for a registered element. The Slice Logic Distribution report is not meaningful if the design is over-mapped for a non-slice resource or if Placement fails. IO Utilization: Number of bonded IOBs: 10 out of 326 3% Specific Feature Utilization: Number of RAMB16BWERs: 64 out of 268 23% Number of RAMB8BWERs: 4 out of 536 1% Number of BUFIO2/BUFIO2_2CLKs: 0 out of 32 0% Number of BUFIO2FB/BUFIO2FB_2CLKs: 0 out of 32 0% Number of BUFG/BUFGMUXs: 3 out of 16 18% Number used as BUFGs: 3 Number used as BUFGMUX: 0 Number of DCM/DCM_CLKGENs: 0 out of 12 0% Number of ILOGIC2/ISERDES2s: 0 out of 506 0% Number of IODELAY2/IODRP2/IODRP2_MCBs: 0 out of 506 0% Number of OLOGIC2/OSERDES2s: 0 out of 506 0% Number of BSCANs: 0 out of 4 0% Number of BUFHs: 0 out of 384 0% Number of BUFPLLs: 0 out of 8 0% Number of BUFPLL_MCBs: 0 out of 4 0% Number of DSP48A1s: 0 out of 180 0% Number of ICAPs: 0 out of 1 0% Number of MCBs: 0 out of 4 0% Number of PCILOGICSEs: 0 out of 2 0% Number of PLL_ADVs: 0 out of 6 0% Number of PMVs: 0 out of 1 0% Number of STARTUPs: 0 out of 1 0% Number of SUSPEND_SYNCs: 0 out of 1 0% Average Fanout of Non-Clock Nets: 4.55 Peak Memory Usage: 596 MB Total REAL time to MAP completion: 2 mins 3 secs Total CPU time to MAP completion: 1 mins 58 secs Mapping completed. See MAP report file "MultiMPITest_map.mrp" for details.