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Main_map.mrp
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Release 14.4 Map P.49d (nt)
Xilinx Mapping Report File for Design 'main'
Design Information
------------------
Command Line : map -intstyle ise -p xc6slx45-csg324-3 -w -logic_opt off -ol
high -t 1 -xt 0 -register_duplication off -r 4 -global_opt off -mt off -ir off
-pr off -lc off -power off -o main_map.ncd main.ngd main.pcf
Target Device : xc6slx45
Target Package : csg324
Target Speed : -3
Mapper Version : spartan6 -- $Revision: 1.55 $
Mapped Date : Thu Apr 25 20:31:51 2013
Design Summary
--------------
Number of errors: 0
Number of warnings: 30
Slice Logic Utilization:
Number of Slice Registers: 688 out of 54,576 1%
Number used as Flip Flops: 688
Number used as Latches: 0
Number used as Latch-thrus: 0
Number used as AND/OR logics: 0
Number of Slice LUTs: 602 out of 27,288 2%
Number used as logic: 334 out of 27,288 1%
Number using O6 output only: 146
Number using O5 output only: 36
Number using O5 and O6: 152
Number used as ROM: 0
Number used as Memory: 201 out of 6,408 3%
Number used as Dual Port RAM: 144
Number using O6 output only: 144
Number using O5 output only: 0
Number using O5 and O6: 0
Number used as Single Port RAM: 0
Number used as Shift Register: 57
Number using O6 output only: 17
Number using O5 output only: 0
Number using O5 and O6: 40
Number used exclusively as route-thrus: 67
Number with same-slice register load: 63
Number with same-slice carry load: 4
Number with other load: 0
Slice Logic Distribution:
Number of occupied Slices: 202 out of 6,822 2%
Number of MUXCYs used: 160 out of 13,644 1%
Number of LUT Flip Flop pairs used: 672
Number with an unused Flip Flop: 224 out of 672 33%
Number with an unused LUT: 70 out of 672 10%
Number of fully used LUT-FF pairs: 378 out of 672 56%
Number of unique control sets: 25
Number of slice register sites lost
to control set restrictions: 119 out of 54,576 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: 101 out of 218 46%
Specific Feature Utilization:
Number of RAMB16BWERs: 2 out of 116 1%
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: 1 out of 16 6%
Number used as BUFGs: 1
Number used as BUFGMUX: 0
Number 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: 14 out of 58 24%
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: 2.12
Peak Memory Usage: 345 MB
Total REAL time to MAP completion: 1 mins 25 secs
Total CPU time to MAP completion: 1 mins
Table of Contents
-----------------
Section 1 - Errors
Section 2 - Warnings
Section 3 - Informational
Section 4 - Removed Logic Summary
Section 5 - Removed Logic
Section 6 - IOB Properties
Section 7 - RPMs
Section 8 - Guide Report
Section 9 - Area Group and Partition Summary
Section 10 - Timing Report
Section 11 - Configuration String Information
Section 12 - Control Set Information
Section 13 - Utilization by Hierarchy
Section 1 - Errors
------------------
Section 2 - Warnings
--------------------
WARNING:PhysDesignRules:367 - The signal <core1/exp_mu/Mram_RAM12_RAMD_O> is
incomplete. The signal does not drive any load pins in the design.
WARNING:PhysDesignRules:367 - The signal <core1/exp_mu/Mram_RAM04_RAMD_O> is
incomplete. The signal does not drive any load pins in the design.
WARNING:PhysDesignRules:367 - The signal <core1/exp_mu/Mram_RAM14_RAMD_O> is
incomplete. The signal does not drive any load pins in the design.
WARNING:PhysDesignRules:367 - The signal <core1/exp_mu/Mram_RAM01_RAMD_O> is
incomplete. The signal does not drive any load pins in the design.
WARNING:PhysDesignRules:367 - The signal <core1/exp_mu/Mram_RAM02_RAMD_O> is
incomplete. The signal does not drive any load pins in the design.
WARNING:PhysDesignRules:367 - The signal <core1/exp_mu/Mram_RAM03_RAMD_O> is
incomplete. The signal does not drive any load pins in the design.
WARNING:PhysDesignRules:367 - The signal <core1/exp_mu/Mram_RAM13_RAMD_O> is
incomplete. The signal does not drive any load pins in the design.
WARNING:PhysDesignRules:367 - The signal <core1/exp_mu/Mram_RAM11_RAMD_O> is
incomplete. The signal does not drive any load pins in the design.
WARNING:PhysDesignRules:367 - The signal <core1/exp_mu/Mram_RAM05_RAMD_O> is
incomplete. The signal does not drive any load pins in the design.
WARNING:PhysDesignRules:367 - The signal <core1/exp_mu/Mram_RAM15_RAMD_O> is
incomplete. The signal does not drive any load pins in the design.
WARNING:PhysDesignRules:367 - The signal <core1/exp_sigma/Mram_RAM02_RAMD_O> is
incomplete. The signal does not drive any load pins in the design.
WARNING:PhysDesignRules:367 - The signal <core1/exp_sigma/Mram_RAM13_RAMD_O> is
incomplete. The signal does not drive any load pins in the design.
WARNING:PhysDesignRules:367 - The signal <core1/exp_sigma/Mram_RAM04_RAMD_O> is
incomplete. The signal does not drive any load pins in the design.
WARNING:PhysDesignRules:367 - The signal <core1/exp_sigma/Mram_RAM12_RAMD_O> is
incomplete. The signal does not drive any load pins in the design.
WARNING:PhysDesignRules:367 - The signal <core1/exp_sigma/Mram_RAM03_RAMD_O> is
incomplete. The signal does not drive any load pins in the design.
WARNING:PhysDesignRules:367 - The signal <core1/exp_sigma/Mram_RAM15_RAMD_O> is
incomplete. The signal does not drive any load pins in the design.
WARNING:PhysDesignRules:367 - The signal <core1/exp_sigma/Mram_RAM05_RAMD_O> is
incomplete. The signal does not drive any load pins in the design.
WARNING:PhysDesignRules:367 - The signal <core1/exp_sigma/Mram_RAM14_RAMD_O> is
incomplete. The signal does not drive any load pins in the design.
WARNING:PhysDesignRules:367 - The signal <core1/exp_sigma/Mram_RAM11_RAMD_O> is
incomplete. The signal does not drive any load pins in the design.
WARNING:PhysDesignRules:367 - The signal <core1/exp_sigma/Mram_RAM01_RAMD_O> is
incomplete. The signal does not drive any load pins in the design.
WARNING:PhysDesignRules:367 - The signal <core0/exp_sigma/Mram_RAM01_RAMD_O> is
incomplete. The signal does not drive any load pins in the design.
WARNING:PhysDesignRules:367 - The signal <core0/exp_sigma/Mram_RAM02_RAMD_O> is
incomplete. The signal does not drive any load pins in the design.
WARNING:PhysDesignRules:367 - The signal <core0/exp_sigma/Mram_RAM03_RAMD_O> is
incomplete. The signal does not drive any load pins in the design.
WARNING:PhysDesignRules:367 - The signal <core0/exp_sigma/Mram_RAM15_RAMD_O> is
incomplete. The signal does not drive any load pins in the design.
WARNING:PhysDesignRules:367 - The signal <core0/exp_sigma/Mram_RAM14_RAMD_O> is
incomplete. The signal does not drive any load pins in the design.
WARNING:PhysDesignRules:367 - The signal <core0/exp_sigma/Mram_RAM11_RAMD_O> is
incomplete. The signal does not drive any load pins in the design.
WARNING:PhysDesignRules:367 - The signal <core0/exp_sigma/Mram_RAM12_RAMD_O> is
incomplete. The signal does not drive any load pins in the design.
WARNING:PhysDesignRules:367 - The signal <core0/exp_sigma/Mram_RAM13_RAMD_O> is
incomplete. The signal does not drive any load pins in the design.
WARNING:PhysDesignRules:367 - The signal <core0/exp_sigma/Mram_RAM05_RAMD_O> is
incomplete. The signal does not drive any load pins in the design.
WARNING:PhysDesignRules:367 - The signal <core0/exp_sigma/Mram_RAM04_RAMD_O> is
incomplete. The signal does not drive any load pins in the design.
Section 3 - Informational
-------------------------
INFO:LIT:243 - Logical network core1/exp_sigma/Mram_RAM161/SPO has no load.
INFO:LIT:395 - The above info message is repeated 11 more times for the
following (max. 5 shown):
core1/exp_sigma/Mram_RAM162/SPO,
core1/exp_sigma/Mram_RAM062/SPO,
core1/exp_sigma/Mram_RAM061/SPO,
core1/exp_mu/Mram_RAM161/SPO,
core1/exp_mu/Mram_RAM162/SPO
To see the details of these info messages, please use the -detail switch.
INFO:MapLib:562 - No environment variables are currently set.
INFO:LIT:244 - All of the single ended outputs in this design are using slew
rate limited output drivers. The delay on speed critical single ended outputs
can 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 to
1.260 Volts)
INFO:Map:215 - The Interim Design Summary has been generated in the MAP Report
(.mrp).
INFO:Pack:1650 - Map created a placed design.
Section 4 - Removed Logic Summary
---------------------------------
14 block(s) optimized away
Section 5 - Removed Logic
-------------------------
Optimized Block(s):
TYPE BLOCK
GND XST_GND
VCC XST_VCC
VCC calc_exp_mu/mult1/blk00000001/blk00000002
GND calc_exp_mu/mult1/blk00000001/blk00000003
VCC calc_exp_mu/mult2/blk00000001/blk00000002
GND calc_exp_mu/mult2/blk00000001/blk00000003
VCC calc_exp_sigma/mult1/blk00000001/blk00000002
GND calc_exp_sigma/mult1/blk00000001/blk00000003
VCC calc_exp_sigma/mult2/blk00000001/blk00000002
GND calc_exp_sigma/mult2/blk00000001/blk00000003
VCC core0/mult/blk00000001/blk00000002
GND core0/mult/blk00000001/blk00000003
VCC core1/mult/blk00000001/blk00000002
GND core1/mult/blk00000001/blk00000003
To enable printing of redundant blocks removed and signals merged, set the
detailed map report option and rerun map.
Section 6 - IOB Properties
--------------------------
+---------------------------------------------------------------------------------------------------------------------------------------------------------+
| IOB Name | Type | Direction | IO Standard | Diff | Drive | Slew | Reg (s) | Resistor | IOB |
| | | | | Term | Strength | Rate | | | Delay |
+---------------------------------------------------------------------------------------------------------------------------------------------------------+
| clk | IOB | INPUT | LVCMOS25 | | | | | | |
| i_mu<0> | IOB | INPUT | LVCMOS25 | | | | | | |
| i_mu<1> | IOB | INPUT | LVCMOS25 | | | | | | |
| i_mu<2> | IOB | INPUT | LVCMOS25 | | | | | | |
| i_mu<3> | IOB | INPUT | LVCMOS25 | | | | | | |
| i_mu<4> | IOB | INPUT | LVCMOS25 | | | | | | |
| i_mu<5> | IOB | INPUT | LVCMOS25 | | | | | | |
| i_mu<6> | IOB | INPUT | LVCMOS25 | | | | | | |
| i_mu<7> | IOB | INPUT | LVCMOS25 | | | | | | |
| i_mu<8> | IOB | INPUT | LVCMOS25 | | | | | | |
| i_mu<9> | IOB | INPUT | LVCMOS25 | | | | | | |
| i_mu<10> | IOB | INPUT | LVCMOS25 | | | | | | |
| i_mu<11> | IOB | INPUT | LVCMOS25 | | | | | | |
| i_mu<12> | IOB | INPUT | LVCMOS25 | | | | | | |
| i_mu<13> | IOB | INPUT | LVCMOS25 | | | | | | |
| i_mu<14> | IOB | INPUT | LVCMOS25 | | | | | | |
| i_mu<15> | IOB | INPUT | LVCMOS25 | | | | | | |
| i_mu<16> | IOB | INPUT | LVCMOS25 | | | | | | |
| i_mu<17> | IOB | INPUT | LVCMOS25 | | | | | | |
| i_new_option | IOB | INPUT | LVCMOS25 | | | | | | |
| i_s<0> | IOB | INPUT | LVCMOS25 | | | | | | |
| i_s<1> | IOB | INPUT | LVCMOS25 | | | | | | |
| i_s<2> | IOB | INPUT | LVCMOS25 | | | | | | |
| i_s<3> | IOB | INPUT | LVCMOS25 | | | | | | |
| i_s<4> | IOB | INPUT | LVCMOS25 | | | | | | |
| i_s<5> | IOB | INPUT | LVCMOS25 | | | | | | |
| i_s<6> | IOB | INPUT | LVCMOS25 | | | | | | |
| i_s<7> | IOB | INPUT | LVCMOS25 | | | | | | |
| i_s<8> | IOB | INPUT | LVCMOS25 | | | | | | |
| i_s<9> | IOB | INPUT | LVCMOS25 | | | | | | |
| i_s<10> | IOB | INPUT | LVCMOS25 | | | | | | |
| i_s<11> | IOB | INPUT | LVCMOS25 | | | | | | |
| i_s<12> | IOB | INPUT | LVCMOS25 | | | | | | |
| i_s<13> | IOB | INPUT | LVCMOS25 | | | | | | |
| i_s<14> | IOB | INPUT | LVCMOS25 | | | | | | |
| i_s<15> | IOB | INPUT | LVCMOS25 | | | | | | |
| i_s<16> | IOB | INPUT | LVCMOS25 | | | | | | |
| i_sigma<0> | IOB | INPUT | LVCMOS25 | | | | | | |
| i_sigma<1> | IOB | INPUT | LVCMOS25 | | | | | | |
| i_sigma<2> | IOB | INPUT | LVCMOS25 | | | | | | |
| i_sigma<3> | IOB | INPUT | LVCMOS25 | | | | | | |
| i_sigma<4> | IOB | INPUT | LVCMOS25 | | | | | | |
| i_sigma<5> | IOB | INPUT | LVCMOS25 | | | | | | |
| i_sigma<6> | IOB | INPUT | LVCMOS25 | | | | | | |
| i_sigma<7> | IOB | INPUT | LVCMOS25 | | | | | | |
| i_sigma<8> | IOB | INPUT | LVCMOS25 | | | | | | |
| i_sigma<9> | IOB | INPUT | LVCMOS25 | | | | | | |
| i_sigma<10> | IOB | INPUT | LVCMOS25 | | | | | | |
| i_sigma<11> | IOB | INPUT | LVCMOS25 | | | | | | |
| i_sigma<12> | IOB | INPUT | LVCMOS25 | | | | | | |
| i_sigma<13> | IOB | INPUT | LVCMOS25 | | | | | | |
| i_sigma<14> | IOB | INPUT | LVCMOS25 | | | | | | |
| i_sigma<15> | IOB | INPUT | LVCMOS25 | | | | | | |
| i_sigma<16> | IOB | INPUT | LVCMOS25 | | | | | | |
| i_sigma<17> | IOB | INPUT | LVCMOS25 | | | | | | |
| o_acc1<0> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | |
| o_acc1<1> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | |
| o_acc1<2> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | |
| o_acc1<3> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | |
| o_acc1<4> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | |
| o_acc1<5> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | |
| o_acc1<6> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | |
| o_acc1<7> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | |
| o_acc1<8> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | |
| o_acc1<9> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | |
| o_acc1<10> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | |
| o_acc1<11> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | |
| o_acc1<12> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | |
| o_acc1<13> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | |
| o_acc1<14> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | |
| o_acc1<15> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | |
| o_acc1<16> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | |
| o_acc1<17> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | |
| o_acc1<18> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | |
| o_acc1<19> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | |
| o_acc1<20> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | |
| o_acc1<21> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | |
| o_acc1<22> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | |
| o_acc2<0> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | |
| o_acc2<1> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | |
| o_acc2<2> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | |
| o_acc2<3> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | |
| o_acc2<4> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | |
| o_acc2<5> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | |
| o_acc2<6> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | |
| o_acc2<7> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | |
| o_acc2<8> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | |
| o_acc2<9> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | |
| o_acc2<10> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | |
| o_acc2<11> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | |
| o_acc2<12> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | |
| o_acc2<13> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | |
| o_acc2<14> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | |
| o_acc2<15> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | |
| o_acc2<16> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | |
| o_acc2<17> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | |
| o_acc2<18> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | |
| o_acc2<19> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | |
| o_acc2<20> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | |
| o_acc2<21> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | |
| o_acc2<22> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | |
+---------------------------------------------------------------------------------------------------------------------------------------------------------+
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 static
timing analysis tools, Timing Analyzer (GUI) or TRCE (command line), with the
mapped NCD and PCF files. Please note that this timing report will be generated
using estimated delay information. For accurate numbers, please generate a
timing report with the post Place and Route NCD file.
For more information about the Timing Analyzer, consult the Xilinx Timing
Analyzer Reference Manual; for more information about TRCE, consult the Xilinx
Command Line Tools User Guide "TRACE" chapter.
Section 11 - Configuration String Details
-----------------------------------------
Use the "-detail" map option to print out Configuration Strings
Section 12 - Control Set Information
------------------------------------
Use the "-detail" map option to print out Control Set Information.
Section 13 - Utilization by Hierarchy
-------------------------------------
Use the "-detail" map option to print out the Utilization by Hierarchy section.