Root/Examples/Beta1/logic/build/project.mrp

Source at commit 03456560f3b20f0f1347b3a4f8c9de0e818b0154 created 13 years 4 months ago.
By Erwin Lopez, Pins corrected again
1Release 12.2 Map M.63c (lin64)
2Xilinx Mapping Report File for Design 'beta'
3
4Design Information
5------------------
6Command Line : map -pr b -p xc3s500e-VQ100-4 project.ngd
7Target Device : xc3s500e
8Target Package : vq100
9Target Speed : -4
10Mapper Version : spartan3e -- $Revision: 1.52 $
11Mapped Date : Sun Oct 31 14:11:28 2010
12
13Design Summary
14--------------
15Number of errors: 0
16Number of warnings: 0
17Logic Utilization:
18  Number of Slice Flip Flops: 131 out of 9,312 1%
19  Number of 4 input LUTs: 112 out of 9,312 1%
20Logic Distribution:
21  Number of occupied Slices: 118 out of 4,656 2%
22    Number of Slices containing only related logic: 118 out of 118 100%
23    Number of Slices containing unrelated logic: 0 out of 118 0%
24      *See NOTES below for an explanation of the effects of unrelated logic.
25  Total Number of 4 input LUTs: 140 out of 9,312 1%
26    Number used as logic: 112
27    Number used as a route-thru: 28
28
29  The Slice Logic Distribution report is not meaningful if the design is
30  over-mapped for a non-slice resource or if Placement fails.
31
32  Number of bonded IOBs: 34 out of 66 51%
33    IOB Flip Flops: 27
34  Number of RAMB16s: 4 out of 20 20%
35  Number of BUFGMUXs: 1 out of 24 4%
36
37Average Fanout of Non-Clock Nets: 2.51
38
39Peak Memory Usage: 367 MB
40Total REAL time to MAP completion: 5 secs
41Total CPU time to MAP completion: 2 secs
42
43NOTES:
44
45   Related logic is defined as being logic that shares connectivity - e.g. two
46   LUTs are "related" if they share common inputs. When assembling slices,
47   Map gives priority to combine logic that is related. Doing so results in
48   the best timing performance.
49
50   Unrelated logic shares no connectivity. Map will only begin packing
51   unrelated logic into a slice once 99% of the slices are occupied through
52   related logic packing.
53
54   Note that once logic distribution reaches the 99% level through related
55   logic packing, this does not mean the device is completely utilized.
56   Unrelated logic packing will then begin, continuing until all usable LUTs
57   and FFs are occupied. Depending on your timing budget, increased levels of
58   unrelated logic packing may adversely affect the overall timing performance
59   of your design.
60
61Table of Contents
62-----------------
63Section 1 - Errors
64Section 2 - Warnings
65Section 3 - Informational
66Section 4 - Removed Logic Summary
67Section 5 - Removed Logic
68Section 6 - IOB Properties
69Section 7 - RPMs
70Section 8 - Guide Report
71Section 9 - Area Group and Partition Summary
72Section 10 - Timing Report
73Section 11 - Configuration String Information
74Section 12 - Control Set Information
75Section 13 - Utilization by Hierarchy
76
77Section 1 - Errors
78------------------
79
80Section 2 - Warnings
81--------------------
82
83Section 3 - Informational
84-------------------------
85INFO:MapLib:562 - No environment variables are currently set.
86INFO:LIT:244 - All of the single ended outputs in this design are using slew
87   rate limited output drivers. The delay on speed critical single ended outputs
88   can be dramatically reduced by designating them as fast outputs.
89
90Section 4 - Removed Logic Summary
91---------------------------------
92   2 block(s) optimized away
93
94Section 5 - Removed Logic
95-------------------------
96
97Optimized Block(s):
98TYPE BLOCK
99GND XST_GND
100VCC XST_VCC
101
102To enable printing of redundant blocks removed and signals merged, set the
103detailed map report option and rerun map.
104
105Section 6 - IOB Properties
106--------------------------
107
108+---------------------------------------------------------------------------------------------------------------------------------------------------------+
109| IOB Name | Type | Direction | IO Standard | Diff | Drive | Slew | Reg (s) | Resistor | IOB |
110| | | | | Term | Strength | Rate | | | Delay |
111+---------------------------------------------------------------------------------------------------------------------------------------------------------+
112| addr<0> | IBUF | INPUT | LVCMOS25 | | | | IFF1 | | 0 / 3 |
113| addr<1> | IBUF | INPUT | LVCMOS25 | | | | IFF1 | | 0 / 3 |
114| addr<2> | IBUF | INPUT | LVCMOS25 | | | | IFF1 | | 0 / 3 |
115| addr<3> | IBUF | INPUT | LVCMOS25 | | | | IFF1 | | 0 / 3 |
116| addr<4> | IBUF | INPUT | LVCMOS25 | | | | IFF1 | | 0 / 3 |
117| addr<5> | IBUF | INPUT | LVCMOS25 | | | | IFF1 | | 0 / 3 |
118| addr<6> | IBUF | INPUT | LVCMOS25 | | | | IFF1 | | 0 / 3 |
119| addr<7> | IBUF | INPUT | LVCMOS25 | | | | IFF1 | | 0 / 3 |
120| addr<8> | IBUF | INPUT | LVCMOS25 | | | | IFF1 | | 0 / 3 |
121| addr<9> | IBUF | INPUT | LVCMOS25 | | | | IFF1 | | 0 / 3 |
122| addr<10> | IBUF | INPUT | LVCMOS25 | | | | IFF1 | | 0 / 3 |
123| addr<11> | IBUF | INPUT | LVCMOS25 | | | | IFF1 | | 0 / 3 |
124| addr<12> | IBUF | INPUT | LVCMOS25 | | | | IFF1 | | 0 / 3 |
125| clk | IBUF | INPUT | LVCMOS25 | | | | | | 0 / 0 |
126| hbridge<0> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | 0 / 0 |
127| hbridge<1> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | 0 / 0 |
128| hbridge<2> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | 0 / 0 |
129| hbridge<3> | IOB | OUTPUT | LVCMOS25 | | 12 | SLOW | | | 0 / 0 |
130| ncs | IBUF | INPUT | LVCMOS25 | | | | IFF1 | | 0 / 3 |
131| noe | IBUF | INPUT | LVCMOS25 | | | | | | 0 / 0 |
132| nwe | IBUF | INPUT | LVCMOS25 | | | | IFF1 | | 0 / 3 |
133| quadA | IBUF | INPUT | LVCMOS25 | | | | IFF1 | | 0 / 3 |
134| quadB | IBUF | INPUT | LVCMOS25 | | | | IFF1 | | 0 / 3 |
135| quadC | IBUF | INPUT | LVCMOS25 | | | | IFF1 | | 0 / 3 |
136| quadD | IBUF | INPUT | LVCMOS25 | | | | IFF1 | | 0 / 3 |
137| reset | IBUF | INPUT | LVCMOS25 | | | | | | 0 / 0 |
138| sram_data<0> | IOB | BIDIR | LVCMOS25 | | 12 | SLOW | IFF1 | | 0 / 3 |
139| sram_data<1> | IOB | BIDIR | LVCMOS25 | | 12 | SLOW | IFF1 | | 0 / 3 |
140| sram_data<2> | IOB | BIDIR | LVCMOS25 | | 12 | SLOW | IFF1 | | 0 / 3 |
141| sram_data<3> | IOB | BIDIR | LVCMOS25 | | 12 | SLOW | IFF1 | | 0 / 3 |
142| sram_data<4> | IOB | BIDIR | LVCMOS25 | | 12 | SLOW | IFF1 | | 0 / 3 |
143| sram_data<5> | IOB | BIDIR | LVCMOS25 | | 12 | SLOW | IFF1 | | 0 / 3 |
144| sram_data<6> | IOB | BIDIR | LVCMOS25 | | 12 | SLOW | IFF1 | | 0 / 3 |
145| sram_data<7> | IOB | BIDIR | LVCMOS25 | | 12 | SLOW | IFF1 | | 0 / 3 |
146+---------------------------------------------------------------------------------------------------------------------------------------------------------+
147
148Section 7 - RPMs
149----------------
150
151Section 8 - Guide Report
152------------------------
153Guide not run on this design.
154
155Section 9 - Area Group and Partition Summary
156--------------------------------------------
157
158Partition Implementation Status
159-------------------------------
160
161  No Partitions were found in this design.
162
163-------------------------------
164
165Area Group Information
166----------------------
167
168  No area groups were found in this design.
169
170----------------------
171
172Section 10 - Timing Report
173--------------------------
174This design was not run using timing mode.
175
176Section 11 - Configuration String Details
177-----------------------------------------
178Use the "-detail" map option to print out Configuration Strings
179
180Section 12 - Control Set Information
181------------------------------------
182No control set information for this architecture.
183
184Section 13 - Utilization by Hierarchy
185-------------------------------------
186Use the "-detail" map option to print out the Utilization by Hierarchy section.
187

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