01-22-2004
Not on any unix system that I've seen. Swaping was invented first. So it's called swap space. Paging came along and used the same space. Now it's actually rare to swap. HP-UX can't swap at all. And most other modern os's will be in deep trouble if they start swapping.
10 More Discussions You Might Find Interesting
1. UNIX for Dummies Questions & Answers
All,
I am using SOLARIS 7. I have formated my hard drive to consist of only 150MB of swap space. This isn't enough considering I am running Oracle. How do I create additional swap space?
Please list sources or commands.
PS mkswap doesn't work on my machine. ( I have swap and... (5 Replies)
Discussion started by: SmartJuniorUnix
5 Replies
2. AIX
how do you get the paging space reduced without rebooting the machine ? the os is aix (2 Replies)
Discussion started by: aaronh
2 Replies
3. UNIX for Dummies Questions & Answers
Plz I need to know how much swap mem free and used i have.
I'm using Compaq Tru64 UNIX V5.1A (rev 1885)
Thanx (1 Reply)
Discussion started by: Lestat
1 Replies
4. Linux
Hi,
I want to know how can i free the swap space if it is completely full,
0 mb remaining, (1 Reply)
Discussion started by: manoj.solaris
1 Replies
5. SCO
Hi every one.
I have a client with a Unixware 7.1.3 system.
4GB Ram
2 x Xeon CPU's
4 x 147GB scsi Raid 5 Config
1 x 147GB Scsi spare drive
Running a database application on top of Unixware
What is the formula you use to determine what the size of the swap file is suppose to be ?.
... (5 Replies)
Discussion started by: linuxjunkie
5 Replies
6. Solaris
hi everyone there is some qns i would like to ask abt swap space. lets say i have a host computer which is running solaris and has 18 disks which adds up to 9.9tb. the qns i would like to ask is that does all the 18 disks need to have a swap space partition or do i just create a swap space... (3 Replies)
Discussion started by: redemption
3 Replies
7. Solaris
Could someone please explain how you know how much swap space you have on your system. See below:
# swap -s
total: 8225048k bytes allocated + 4863488k reserved = 13088536k used, 4008032k available
# swap -l
swapfile dev swaplo blocks free
/dev/dsk/c3t0d0s1 32,25 16... (2 Replies)
Discussion started by: jamba1
2 Replies
8. Linux
Hi,
i have done a blunder here, i increased the swap space on Xen5.6 server machine using below steps :-
1056 dd if=/dev/zero of=/root/myswapfile bs=1M count=1024
1057 ls -l /root/myswapfile
1058 chmod 600 /root/myswapfile
1059 mkswap /root/myswapfile
1060 swapon /root/myswapfile
... (1 Reply)
Discussion started by: apm
1 Replies
9. Solaris
Dear All,
I have a swap space of 16G available in Sol 10. I have allocated it as a seperate file system. But when the RAM Is full used , the system gets rebooted and the swap is not being used,.
Any reasons for this.
Rgds
Rj (5 Replies)
Discussion started by: jegaraman
5 Replies
10. Red Hat
CENT OS 5.8 server running with a huge java application which uses up all my ram (4GB) and requires excess of atleast 2GB.But the swap is not getting used up((8GB) of swap space left unused) leading a wierd error and stopping application to stop working.
Any one here dealt with the same kind of... (2 Replies)
Discussion started by: shiek.kaleem
2 Replies
LEARN ABOUT OSF1
swap_word_bytes
swap_lw_bytes(9r) swap_lw_bytes(9r)
NAME
swap_lw_bytes, swap_word_bytes, swap_words - General: Perform byte-swapping operations
SYNOPSIS
unsigned int swap_lw_bytes(
unsigned int buffer ); unsigned int swap_word_bytes(
unsigned int buffer ); unsigned int swap_words(
unsigned int buffer );
ARGUMENTS
Specifies a 32-bit (4 bytes) quantity.
DESCRIPTION
The swap_lw_bytes interface performs a longword byte swap. The swap_word_bytes interface performs a short word byte swap. The swap_words
interface performs a word byte swap. Many computer vendors support devices that use a big endian model of byte ordering. Because Digital
devices support the little endian model of byte ordering, there is a need for these byte-swapping interfaces. In addition, some buses (for
example, the VMEbus) can have specific or implied byte ordering that may require the use of these interfaces.
Given that a longword is equal to 4 bytes; a short word is equal to 2 bytes; and 1 byte is equal to 8 bits, these interfaces swap bytes as
follows: The swap_lw_bytes interface takes the 32-bit quantity specified by the buffer argument and swaps all 4 bytes. The swap_word_bytes
interface takes the 32-bit quantity specified by the buffer argument and swaps the individual bytes that make up each word of the 32-bit
quantity. The swap_words interface takes the 32-bit quantity specified by the buffer argument and swaps the two 16-bit words.
The following illustration compares the byte swapping performed by these interfaces.
31 0
+---+---+---+---+ Starting value: | a | b | c | d |
+---+---+---+---+
Long word byte swap
(swap_lw_bytes)
31 0
+---+---+---+---+ Ending value: | d | c | b | a |
+-------+---+---+
Short word byte swap
(swap_word_bytes)
31 0
+---+---+---+---+ Ending value: | b | a | d | c |
+---+---+---+---+
31 0
+---+---+---+---+ Starting value: | ab | cd |
+---+---+---+---+
Word byte swap
(swap_words)
31 0
+---+---+---+---+ Ending value: | cd | ab |
+---+---+---+---+
RETURN VALUES
Upon successful completion, these interfaces return the swapped bytes.
swap_lw_bytes(9r)