elc_clock.sta.rpt
来自「verilog实践 elc_clock 电子时钟设计」· RPT 代码 · 共 284 行 · 第 1/2 页
RPT
284 行
TimeQuest Timing Analyzer report for elc_clock
Fri Apr 13 17:23:21 2007
Quartus II Version 6.1 Build 201 11/27/2006 SJ Full Version
---------------------
; Table of Contents ;
---------------------
1. Legal Notice
2. TimeQuest Timing Analyzer Summary
3. Clocks
4. Fmax Summary
5. Setup Summary
6. Hold Summary
7. Minimum Pulse Width
8. Setup Transfers
9. Hold Transfers
10. Unconstrained Paths
11. TimeQuest Timing Analyzer Messages
----------------
; Legal Notice ;
----------------
Copyright (C) 1991-2006 Altera Corporation
Your use of Altera Corporation's design tools, logic functions
and other software and tools, and its AMPP partner logic
functions, and any output files from any of the foregoing
(including device programming or simulation files), and any
associated documentation or information are expressly subject
to the terms and conditions of the Altera Program License
Subscription Agreement, Altera MegaCore Function License
Agreement, or other applicable license agreement, including,
without limitation, that your use is for the sole purpose of
programming logic devices manufactured by Altera and sold by
Altera or its authorized distributors. Please refer to the
applicable agreement for further details.
+-----------------------------------------------------------------------+
; TimeQuest Timing Analyzer Summary ;
+--------------------+--------------------------------------------------+
; Quartus II Version ; Version 6.1 Build 201 11/27/2006 SJ Full Version ;
; Revision Name ; elc_clock ;
; Device Family ; Cyclone ;
; Device Name ; EP1C3T144C8 ;
; Timing Models ; Final ;
; Delay Model ; Slow Model ;
; Rise/Fall Delays ; Unavailable ;
+--------------------+--------------------------------------------------+
+-----------------------------------------------------------------------------------------------------------------------------------------------------------------------+
; Clocks ;
+------------+------+--------+-------+-------+------------+-----------+-------------+-------+--------+-----------+------------+----------+--------+--------+------------+
; Clock Name ; Type ; Period ; Rise ; Fall ; Duty Cycle ; Divide by ; Multiply by ; Phase ; Offset ; Edge List ; Edge Shift ; Inverted ; Master ; Source ; Targets ;
+------------+------+--------+-------+-------+------------+-----------+-------------+-------+--------+-----------+------------+----------+--------+--------+------------+
; clk ; Base ; 1.000 ; 0.000 ; 0.500 ; ; ; ; ; ; ; ; ; ; ; { clk } ;
; clk1ms ; Base ; 1.000 ; 0.000 ; 0.500 ; ; ; ; ; ; ; ; ; ; ; { clk1ms } ;
; clk1s ; Base ; 1.000 ; 0.000 ; 0.500 ; ; ; ; ; ; ; ; ; ; ; { clk1s } ;
+------------+------+--------+-------+-------+------------+-----------+-------------+-------+--------+-----------+------------+----------+--------+--------+------------+
+-------------------------+
; Fmax Summary ;
+------------+------------+
; Fmax (MHz) ; Clock Name ;
+------------+------------+
; 125.38 ; clk ;
; 113.95 ; clk1s ;
; 135.21 ; clk1ms ;
+------------+------------+
This panel reports FMAX for every clock in the design, regardless of the user-specified clock periods. FMAX is only computed for paths where the source and destination registers or ports are driven by the same clock. Paths of different clocks, including generated clocks, are ignored. For paths between a clock and its inversion, FMAX is computed as if the rising and falling edges are scaled along with FMAX, such that the duty cycle (in terms of a percentage) is maintained. Altera recommends that you always use clock constraints and other slack reports for sign-off analysis.
+----------------------------------+
; Setup Summary ;
+--------+---------+---------------+
; Clock ; Slack ; End Point TNS ;
+--------+---------+---------------+
; clk1ms ; -19.345 ; -210.699 ;
; clk1s ; -7.776 ; -148.953 ;
; clk ; -6.976 ; -332.014 ;
+--------+---------+---------------+
+--------------------------------+
; Hold Summary ;
+--------+-------+---------------+
; Clock ; Slack ; End Point TNS ;
+--------+-------+---------------+
; clk1ms ; 1.059 ; 0.000 ;
; clk ; 1.223 ; 0.000 ;
; clk1s ; 1.314 ; 0.000 ;
+--------+-------+---------------+
+----------------------------------------------------------------------------------------+
; Minimum Pulse Width ;
+--------+--------------+----------------+-------+--------+------------+-----------------+
; Slack ; Actual Width ; Required Width ; Pulse ; Clock ; Clock Edge ; Target ;
+--------+--------------+----------------+-------+--------+------------+-----------------+
; -1.318 ; 0.500 ; 1.818 ; High ; clk ; Rise ; count1ms[14] ;
; -1.318 ; 0.500 ; 1.818 ; Low ; clk ; Rise ; count1ms[14] ;
; -1.318 ; 0.500 ; 1.818 ; High ; clk ; Rise ; count1ms[15] ;
; -1.318 ; 0.500 ; 1.818 ; Low ; clk ; Rise ; count1ms[15] ;
; -1.318 ; 0.500 ; 1.818 ; High ; clk ; Rise ; count1ms[16] ;
; -1.318 ; 0.500 ; 1.818 ; Low ; clk ; Rise ; count1ms[16] ;
; -1.318 ; 0.500 ; 1.818 ; High ; clk ; Rise ; count1ms[11] ;
; -1.318 ; 0.500 ; 1.818 ; Low ; clk ; Rise ; count1ms[11] ;
; -1.318 ; 0.500 ; 1.818 ; High ; clk ; Rise ; count1ms[13] ;
; -1.318 ; 0.500 ; 1.818 ; Low ; clk ; Rise ; count1ms[13] ;
; -1.318 ; 0.500 ; 1.818 ; High ; clk ; Rise ; count1ms[17] ;
; -1.318 ; 0.500 ; 1.818 ; Low ; clk ; Rise ; count1ms[17] ;
; -1.318 ; 0.500 ; 1.818 ; High ; clk ; Rise ; count1ms[22] ;
; -1.318 ; 0.500 ; 1.818 ; Low ; clk ; Rise ; count1ms[22] ;
; -1.318 ; 0.500 ; 1.818 ; High ; clk ; Rise ; count1ms[23] ;
; -1.318 ; 0.500 ; 1.818 ; Low ; clk ; Rise ; count1ms[23] ;
; -1.318 ; 0.500 ; 1.818 ; High ; clk ; Rise ; count1ms[19] ;
; -1.318 ; 0.500 ; 1.818 ; Low ; clk ; Rise ; count1ms[19] ;
; -1.318 ; 0.500 ; 1.818 ; High ; clk ; Rise ; count1ms[21] ;
; -1.318 ; 0.500 ; 1.818 ; Low ; clk ; Rise ; count1ms[21] ;
; -1.318 ; 0.500 ; 1.818 ; High ; clk ; Rise ; count1ms[24] ;
; -1.318 ; 0.500 ; 1.818 ; Low ; clk ; Rise ; count1ms[24] ;
; -1.318 ; 0.500 ; 1.818 ; High ; clk ; Rise ; count1ms[18] ;
; -1.318 ; 0.500 ; 1.818 ; Low ; clk ; Rise ; count1ms[18] ;
; -1.318 ; 0.500 ; 1.818 ; High ; clk ; Rise ; count1ms[12] ;
; -1.318 ; 0.500 ; 1.818 ; Low ; clk ; Rise ; count1ms[12] ;
; -1.318 ; 0.500 ; 1.818 ; High ; clk ; Rise ; count1ms[20] ;
; -1.318 ; 0.500 ; 1.818 ; Low ; clk ; Rise ; count1ms[20] ;
; -1.318 ; 0.500 ; 1.818 ; High ; clk ; Rise ; count1ms[8] ;
; -1.318 ; 0.500 ; 1.818 ; Low ; clk ; Rise ; count1ms[8] ;
; -1.318 ; 0.500 ; 1.818 ; High ; clk ; Rise ; count1ms[6] ;
; -1.318 ; 0.500 ; 1.818 ; Low ; clk ; Rise ; count1ms[6] ;
; -1.318 ; 0.500 ; 1.818 ; High ; clk1s ; Rise ; minute[0] ;
; -1.318 ; 0.500 ; 1.818 ; Low ; clk1s ; Rise ; minute[0] ;
; -1.318 ; 0.500 ; 1.818 ; High ; clk ; Rise ; count1ms[5] ;
; -1.318 ; 0.500 ; 1.818 ; Low ; clk ; Rise ; count1ms[5] ;
; -1.318 ; 0.500 ; 1.818 ; High ; clk ; Rise ; count1ms[1] ;
; -1.318 ; 0.500 ; 1.818 ; Low ; clk ; Rise ; count1ms[1] ;
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