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[/] [spi_master_slave/] [trunk/] [syn/] [spi_master_atlys_top_map.mrp] - Rev 24
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Release 13.1 Map O.40d (nt)Xilinx Mapping Report File for Design 'spi_master_atlys_top'Design Information------------------Command Line : map -intstyle ise -p xc6slx45-csg324-2 -w -logic_opt off -olhigh -xe n -t 1 -xt 0 -register_duplication off -r 4 -global_opt area-equivalent_register_removal on -mt 2 -detail -ir off -pr off -lc area -poweroff -o spi_master_atlys_top_map.ncd spi_master_atlys_top.ngdspi_master_atlys_top.pcfTarget Device : xc6slx45Target Package : csg324Target Speed : -2Mapper Version : spartan6 -- $Revision: 1.55 $Mapped Date : Thu Sep 01 13:07:11 2011Design Summary--------------Number of errors: 0Number of warnings: 0Slice Logic Utilization:Number of Slice Registers: 210 out of 54,576 1%Number used as Flip Flops: 210Number used as Latches: 0Number used as Latch-thrus: 0Number used as AND/OR logics: 0Number of Slice LUTs: 143 out of 27,288 1%Number used as logic: 129 out of 27,288 1%Number using O6 output only: 79Number using O5 output only: 15Number using O5 and O6: 35Number used as ROM: 0Number used as Memory: 4 out of 6,408 1%Number used as Dual Port RAM: 0Number used as Single Port RAM: 0Number used as Shift Register: 4Number using O6 output only: 4Number using O5 output only: 0Number using O5 and O6: 0Number used exclusively as route-thrus: 10Number with same-slice register load: 8Number with same-slice carry load: 2Number with other load: 0Slice Logic Distribution:Number of occupied Slices: 91 out of 6,822 1%Number of LUT Flip Flop pairs used: 231Number with an unused Flip Flop: 46 out of 231 19%Number with an unused LUT: 88 out of 231 38%Number of fully used LUT-FF pairs: 97 out of 231 41%Number of unique control sets: 27Number of slice register sites lostto control set restrictions: 74 out of 54,576 1%A LUT Flip Flop pair for this architecture represents one LUT paired withone Flip Flop within a slice. A control set is a unique combination ofclock, reset, set, and enable signals for a registered element.The Slice Logic Distribution report is not meaningful if the design isover-mapped for a non-slice resource or if Placement fails.IO Utilization:Number of bonded IOBs: 64 out of 218 29%Number of LOCed IOBs: 46 out of 64 71%Specific Feature Utilization:Number of RAMB16BWERs: 0 out of 116 0%Number of RAMB8BWERs: 0 out of 232 0%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: 3Number used as BUFGMUX: 0Number of DCM/DCM_CLKGENs: 0 out of 8 0%Number of ILOGIC2/ISERDES2s: 0 out of 376 0%Number of IODELAY2/IODRP2/IODRP2_MCBs: 0 out of 376 0%Number of OLOGIC2/OSERDES2s: 0 out of 376 0%Number of BSCANs: 0 out of 4 0%Number of BUFHs: 0 out of 256 0%Number of BUFPLLs: 0 out of 8 0%Number of BUFPLL_MCBs: 0 out of 4 0%Number of DSP48A1s: 0 out of 58 0%Number of ICAPs: 0 out of 1 0%Number of MCBs: 0 out of 2 0%Number of PCILOGICSEs: 0 out of 2 0%Number of PLL_ADVs: 0 out of 4 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: 2.86Peak Memory Usage: 301 MBTotal REAL time to MAP completion: 17 secsTotal CPU time to MAP completion (all processors): 17 secsTable of Contents-----------------Section 1 - ErrorsSection 2 - WarningsSection 3 - InformationalSection 4 - Removed Logic SummarySection 5 - Removed LogicSection 6 - IOB PropertiesSection 7 - RPMsSection 8 - Guide ReportSection 9 - Area Group and Partition SummarySection 10 - Timing ReportSection 11 - Configuration String InformationSection 12 - Control Set InformationSection 13 - Utilization by HierarchySection 1 - Errors------------------Section 2 - Warnings--------------------Section 3 - Informational-------------------------INFO:Map:284 - Map is running with the multi-threading option on. Map currentlysupports the use of up to 2 processors. Based on the the user options andmachine load, Map will use 2 processors during this run.INFO:Xst:2261 - The FF/Latch <Inst_spi_slave_port/state_reg_0> in Unit<spi_master_atlys_top> is equivalent to the following FF/Latch, which will beremoved : <Inst_spi_slave_port/state_reg_0_1>INFO:Xst:2261 - The FF/Latch <Inst_spi_slave_port/state_reg_1> in Unit<spi_master_atlys_top> is equivalent to the following FF/Latch, which will beremoved : <Inst_spi_slave_port/state_reg_1_1>INFO:Xst:2261 - The FF/Latch <Inst_spi_slave_port/state_reg_2> in Unit<spi_master_atlys_top> is equivalent to the following 2 FFs/Latches, whichwill be removed : <Inst_spi_slave_port/state_reg_2_1><Inst_spi_slave_port/state_reg_2_2>INFO:LIT:243 - Logical network pclk_i_BUFGP/N2 has no load.INFO:LIT:243 - Logical network pclk_i_BUFGP/N3 has no load.INFO:LIT:243 - Logical network sclk_i_BUFGP/N2 has no load.INFO:LIT:243 - Logical network sclk_i_BUFGP/N3 has no load.INFO:MapLib:562 - No environment variables are currently set.INFO:LIT:244 - All of the single ended outputs in this design are using slewrate limited output drivers. The delay on speed critical single ended outputscan be dramatically reduced by designating them as fast outputs.INFO:Pack:1716 - Initializing temperature to 85.000 Celsius. (default - Range:0.000 to 85.000 Celsius)INFO:Pack:1720 - Initializing voltage to 1.140 Volts. (default - Range: 1.140 to1.260 Volts)INFO:Map:215 - The Interim Design Summary has been generated in the MAP Report(.mrp).INFO:Place:834 - Only a subset of IOs are locked. Out of 64 IOs, 46 are lockedand 18 are not locked. If you would like to print the names of these IOs,please set the environment variable XIL_PAR_DESIGN_CHECK_VERBOSE to 1.INFO:Pack:1650 - Map created a placed design.Section 4 - Removed Logic Summary---------------------------------4 block(s) removed2 block(s) optimized away4 signal(s) removed58 Block(s) redundantSection 5 - Removed Logic-------------------------The trimmed logic report below shows the logic removed from your design due tosourceless or loadless signals, and VCC or ground connections. If the removalof a signal or symbol results in the subsequent removal of an additional signalor symbol, the message explaining that second removal will be indented. Thisindentation will be repeated as a chain of related logic is removed.To quickly locate the original cause for the removal of a chain of logic, lookabove the place where that logic is listed in the trimming report, then locatethe lines that are least indented (begin at the leftmost edge).The signal "pclk_i_BUFGP/N2" is sourceless and has been removed.The signal "pclk_i_BUFGP/N3" is sourceless and has been removed.The signal "sclk_i_BUFGP/N2" is sourceless and has been removed.The signal "sclk_i_BUFGP/N3" is sourceless and has been removed.Unused block "pclk_i_BUFGP/XST_GND" (ZERO) removed.Unused block "pclk_i_BUFGP/XST_VCC" (ONE) removed.Unused block "sclk_i_BUFGP/XST_GND" (ZERO) removed.Unused block "sclk_i_BUFGP/XST_VCC" (ONE) removed.Optimized Block(s):TYPE BLOCKGND XST_GNDVCC XST_VCCRedundant Block(s):TYPE BLOCKLUT1 Inst_sw_debouncer/Mcount_cnt_reg_cy<6>_rtLUT1 Inst_sw_debouncer/Mcount_cnt_reg_cy<5>_rtLUT1 Inst_sw_debouncer/Mcount_cnt_reg_cy<4>_rtLUT1 Inst_sw_debouncer/Mcount_cnt_reg_cy<3>_rtLUT1 Inst_sw_debouncer/Mcount_cnt_reg_cy<2>_rtLUT1 Inst_sw_debouncer/Mcount_cnt_reg_cy<1>_rtLUT1 Inst_btn_debouncer/Mcount_cnt_reg_cy<6>_rtLUT1 Inst_btn_debouncer/Mcount_cnt_reg_cy<5>_rtLUT1 Inst_btn_debouncer/Mcount_cnt_reg_cy<4>_rtLUT1 Inst_btn_debouncer/Mcount_cnt_reg_cy<3>_rtLUT1 Inst_btn_debouncer/Mcount_cnt_reg_cy<2>_rtLUT1 Inst_btn_debouncer/Mcount_cnt_reg_cy<1>_rtLUT1 Inst_sw_debouncer/Mcount_cnt_reg_xor<7>_rtLUT1 Inst_btn_debouncer/Mcount_cnt_reg_xor<7>_rtINV ][241_70_INV_0INV ][245_78_INV_0INV ][249_83_INV_0INV ][253_88_INV_0INV ][257_93_INV_0INV ][261_98_INV_0INV ][269_106_INV_0INV ][369_161_INV_0INV ][373_166_INV_0INV ][389_179_INV_0INV ][397_186_INV_0INV ][401_190_INV_0INV ][402_194_INV_0INV ][405_196_INV_0INV ][409_201_INV_0INV ][413_206_INV_0INV ][417_211_INV_0INV ][421_216_INV_0INV ][425_221_INV_0INV ][429_226_INV_0INV ][453_249_INV_0INV ][461_256_INV_0INV ][465_260_INV_0INV ][469_264_INV_0INV ][645_373_INV_0INV ][649_378_INV_0INV ][653_382_INV_0INV ][657_386_INV_0INV ][661_390_INV_0INV ][665_394_INV_0INV ][669_398_INV_0INV ][673_402_INV_0INV ][694_417_INV_0INV ][725_439_INV_0INV ][729_444_INV_0INV ][803_502_INV_0INV ][836_526_INV_0INV ][841_529_INV_0INV ][878_552_INV_0INV ][881_556_INV_0INV ][918_585_INV_0INV ][921_589_INV_0INV ][927_596_INV_0INV ][930_600_INV_0Section 6 - IOB Properties--------------------------+---------------------------------------------------------------------------------------------------------------------------------------------------------+| IOB Name | Type | Direction | IO Standard | Diff | Drive | Slew | Reg (s) | Resistor | IOB || | | | | Term | Strength | Rate | | | Delay |+---------------------------------------------------------------------------------------------------------------------------------------------------------+| btn_i<0> | IOB | INPUT | LVCMOS25 | | | | | | || btn_i<1> | IOB | INPUT | LVCMOS25 | | | | | | || btn_i<2> | IOB | INPUT | LVCMOS25 | | | | | | || btn_i<3> | IOB | INPUT | LVCMOS25 | | | | | | || btn_i<4> | IOB | INPUT | LVCMOS25 | | | | | | || btn_i<5> | IOB | INPUT | LVCMOS25 | | | | | | || dbg_o<0> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | || dbg_o<1> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | || dbg_o<2> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | || dbg_o<3> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | || dbg_o<4> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | || dbg_o<5> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | || dbg_o<6> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | || dbg_o<7> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | || dbg_o<8> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | || dbg_o<9> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | || dbg_o<10> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | || dbg_o<11> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | || led_o<0> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | || led_o<1> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | || led_o<2> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | || led_o<3> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | || led_o<4> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | || led_o<5> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | || led_o<6> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | || led_o<7> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | || m_do_o<0> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | || m_do_o<1> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | || m_do_o<2> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | || m_do_o<3> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | || m_do_o<4> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | || m_do_o<5> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | || m_do_o<6> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | || m_do_o<7> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | || m_state_o<0> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | || m_state_o<1> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | || m_state_o<2> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | || m_state_o<3> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | || pclk_i | IOB | INPUT | LVCMOS25 | | | | | | || s_do_o<0> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | || s_do_o<1> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | || s_do_o<2> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | || s_do_o<3> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | || s_do_o<4> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | || s_do_o<5> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | || s_do_o<6> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | || s_do_o<7> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | || s_state_o<0> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | || s_state_o<1> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | || s_state_o<2> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | || s_state_o<3> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | || sclk_i | IOB | INPUT | LVCMOS25 | | | | | | || spi_miso_o | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | || spi_mosi_o | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | || spi_sck_o | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | || spi_ssel_o | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | || sw_i<0> | IOB | INPUT | LVCMOS25 | | | | | | || sw_i<1> | IOB | INPUT | LVCMOS25 | | | | | | || sw_i<2> | IOB | INPUT | LVCMOS25 | | | | | | || sw_i<3> | IOB | INPUT | LVCMOS25 | | | | | | || sw_i<4> | IOB | INPUT | LVCMOS25 | | | | | | || sw_i<5> | IOB | INPUT | LVCMOS25 | | | | | | || sw_i<6> | IOB | INPUT | LVCMOS25 | | | | | | || sw_i<7> | IOB | INPUT | LVCMOS25 | | | | | | |+---------------------------------------------------------------------------------------------------------------------------------------------------------+Section 7 - RPMs----------------Section 8 - Guide Report------------------------Guide not run on this design.Section 9 - Area Group and Partition Summary--------------------------------------------Partition Implementation Status-------------------------------No Partitions were found in this design.-------------------------------Area Group Information----------------------No area groups were found in this design.----------------------Section 10 - Timing Report--------------------------A logic-level (pre-route) timing report can be generated by using Xilinx statictiming analysis tools, Timing Analyzer (GUI) or TRCE (command line), with themapped NCD and PCF files. Please note that this timing report will be generatedusing estimated delay information. For accurate numbers, please generate atiming report with the post Place and Route NCD file.For more information about the Timing Analyzer, consult the Xilinx TimingAnalyzer Reference Manual; for more information about TRCE, consult the XilinxCommand Line Tools User Guide "TRACE" chapter.Section 11 - Configuration String Details-----------------------------------------Section 12 - Control Set Information------------------------------------+-----------------------------------------------------------------------------------------------------------------------------------+| Clock Signal | Reset Signal | Set Signal | Enable Signal | Slice Load Count | Bel Load Count |+-----------------------------------------------------------------------------------------------------------------------------------+| Inst_spi_master_port/spi_clk_reg_BUFG | | | | 6 | 11 || Inst_spi_master_port/spi_clk_reg_BUFG | | | lut1157_481 | 2 | 8 || Inst_spi_master_port/spi_clk_reg_BUFG | ][1041_0 | | | 2 | 2 || Inst_spi_master_port/spi_clk_reg_BUFG | ][IN_virtPIBox_541_658 | | | 1 | 2 |+-----------------------------------------------------------------------------------------------------------------------------------+| pclk_i_BUFGP | | | | 28 | 67 || pclk_i_BUFGP | | | GLOBAL_LOGIC1 | 1 | 4 || pclk_i_BUFGP | | | ][210_33 | 1 | 8 || pclk_i_BUFGP | | | ][242_76 | 2 | 6 || pclk_i_BUFGP | | | ][402_194 | 2 | 8 || pclk_i_BUFGP | | | lut410_104 | 1 | 2 || pclk_i_BUFGP | | | lut422_111 | 2 | 8 || pclk_i_BUFGP | | | lut463_128 | 2 | 8 || pclk_i_BUFGP | | | lut504_145 | 2 | 8 || pclk_i_BUFGP | | | lut546_164 | 2 | 8 || pclk_i_BUFGP | | | lut710_270 | 2 | 8 || pclk_i_BUFGP | | | lut832_320 | 2 | 6 || pclk_i_BUFGP | | | spi_wren_reg_m | 1 | 8 || pclk_i_BUFGP | | | spi_wren_reg_s | 1 | 2 || pclk_i_BUFGP | ][1041_0 | | | 2 | 6 || pclk_i_BUFGP | clear | | | 2 | 4 |+-----------------------------------------------------------------------------------------------------------------------------------+| sclk_i_BUFGP | | | | 3 | 4 || sclk_i_BUFGP | | | ][691_415 | 3 | 4 || sclk_i_BUFGP | | | lut923_357 | 2 | 8 || sclk_i_BUFGP | | | lut965_376 | 2 | 8 || sclk_i_BUFGP | spi_rst_reg | | ][691_415 | 1 | 4 |+-----------------------------------------------------------------------------------------------------------------------------------+| ~Inst_spi_master_port/spi_clk_reg_BUFG | | | | 1 | 1 || ~Inst_spi_master_port/spi_clk_reg_BUFG | ][1041_0 | | | 1 | 1 |+-----------------------------------------------------------------------------------------------------------------------------------+Section 13 - Utilization by Hierarchy-------------------------------------+------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------+| Module | Partition | Slices* | Slice Reg | LUTs | LUTRAM | BRAM/FIFO | DSP48A1 | BUFG | BUFIO | BUFR | DCM | PLL_ADV | Full Hierarchical Name |+------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------+| spi_master_atlys_top/ | | 65/122 | 71/210 | 111/121 | 0/4 | 0/0 | 0/0 | 2/3 | 0/0 | 0/0 | 0/0 | 0/0 | spi_master_atlys_top || +Inst_btn_debouncer | | 9/9 | 26/26 | 1/1 | 0/0 | 0/0 | 0/0 | 0/0 | 0/0 | 0/0 | 0/0 | 0/0 | spi_master_atlys_top/Inst_btn_debouncer || +Inst_spi_master_port | | 18/18 | 45/45 | 2/2 | 2/2 | 0/0 | 0/0 | 1/1 | 0/0 | 0/0 | 0/0 | 0/0 | spi_master_atlys_top/Inst_spi_master_port || +Inst_spi_slave_port | | 20/20 | 36/36 | 6/6 | 2/2 | 0/0 | 0/0 | 0/0 | 0/0 | 0/0 | 0/0 | 0/0 | spi_master_atlys_top/Inst_spi_slave_port || +Inst_sw_debouncer | | 10/10 | 32/32 | 1/1 | 0/0 | 0/0 | 0/0 | 0/0 | 0/0 | 0/0 | 0/0 | 0/0 | spi_master_atlys_top/Inst_sw_debouncer |+------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------+* Slices can be packed with basic elements from multiple hierarchies.Therefore, a slice will be counted in every hierarchical modulethat each of its packed basic elements belong to.** For each column, there are two numbers reported <A>/<B>.<A> is the number of elements that belong to that specific hierarchical module.<B> is the total number of elements from that hierarchical module and any lower levelhierarchical modules below.*** The LUTRAM column counts all LUTs used as memory including RAM, ROM, and shift registers.