Hi , can anyone please guide me on how do i go about getting the CPU Usage and available free physical and virtual memories?
i know i can get it by using prstat, but i want to get an overall CPU Usage and not a breakdown of all same for the free physical and virtual memories ? (2 Replies)
Hello,
I am installing RX7640 and i have some issue with the memory modules. My system shows them as deconfigured.
Do you think I use the right memories? (2 Replies)
Hi guys and gals...
Who still plays with the AMIGA in any of its guises?
I have a classic A1200(HD) on 24/7 and still build and code for it...
Also _clones_ of the same machine using WinUAE and E-UAE...
It still has that one major beauty for this 62 year old - moi - it is FUN! ;o) (2 Replies)
Well I wrote this in 2005 and uploaded to AMINET.as a commemoration of a machine that is still in use today.
It is now 29 years since this machne came into being. Phenominal and it is still being supported- WOW!
My A1200 is on 24/7 and I use it to test code developed on AMIGA emulators...
... (0 Replies)
Hi guys...
For the AMIGA fans out there...
Not sure if this is the right forum but someone has done a successful working port of gcc for the classic AMIGA A1200.
It contains a very large subset of *NIX commands and now AMIGA fanatics like me can include another platform, within the... (0 Replies)
I don't know if anyone is interested but I have been meddling with FFT for the AMIGA.
(Sadly we AMIGAns don't have these luxuries through any scripting language.
Below is a Python snippet that uses the builtin 'cmath' module to work with the lowly
Python 2.0.1 for the AMIGA. It is part of a... (0 Replies)
Discussion started by: wisecracker
0 Replies
LEARN ABOUT DEBIAN
dpgen_sfft
DPGEN_SFFT(3) Alliance - genlib User's Manual DPGEN_SFFT(3)NAME
DPGEN_SFFT - Static Flip-Flop with Scan-Path Macro-Generator
SYNOPSIS
#include <genlib.h>
void GENLIB_MACRO (DPGEN_SFFT, char *modelname, long flags, long N);
DESCRIPTION
Generate a N bits static flip-flop with scan-path named modelname. The two latches of this flip-flop are i.e. each one is made of two
interters looped togethers.
How it works :
o scan when set to '1' enables the scan-path mode. Note that in scan-path mode, the wen signal is not effective.
o scin : the input of the scan-path. This terminal is different from i0[0].
The scout is q[N-1] (in the following example this is q[31]).
o wen when set to '1' enables the writing of the flip-flop.
TERMINAL NAMES
1. scan : scan-path mode (input, 1 bit).
2. scin : scan path in (input, 1 bit).
3. wen : write enable (input, 1 bit).
4. ck : clock signal (input, 1 bit).
5. i0 : data input (N bits).
6. q : output (N bits).
7. vdd : power.
8. vss : ground.
EXAMPLE
GENLIB_MACRO(DPGEN_SFFT, "model_sfft_32"
, F_BEHAV|F_PLACE
, 32
);
GENLIB_LOINS( "model_sfft_32"
, "instance1_sfft_32"
, "scan"
, "scin"
, "wen"
, "ck"
, "i0[31:0]"
, "q[31:0]" /* a[31] is "scout". */
, "vdd", "vss", NULL
);
SEE ALSO GENLIB_MACRO(3), genlib(1)ASIM /LIP6 30 July 2004 DPGEN_SFFT(3)