10 More Discussions You Might Find Interesting
1. Shell Programming and Scripting
Hi ALL,
I have below example
INPUT 1 (i/p 1)|INPUT 2 (i/p 2)|OUTPUT (o/p)
Bharat Bazar|Bharat Bazar|True Positive
Binny's Sales|<BLANK>|False Negative
<BLANK>|Binny's|False Positive
<BLANK>|<BLANK>|True Negative
Bharat bazar|Bharat|True Positive
binny's|binny|True Positive
where in... (18 Replies)
Discussion started by: nikhil jain
18 Replies
2. Shell Programming and Scripting
Hi,
I am looking for generic commands / scripts that could run across platforms especially on HP Itanium boxes to give me % of free OS parameters
For eg:
Free Total Memory RAM : 20 %
Free Total Swap Memory: 35%
Free Total CPU utilisation: 44%
Free Disk Space: /appl = 55%... (5 Replies)
Discussion started by: mohtashims
5 Replies
3. Shell Programming and Scripting
Dear all,
I have data like below and i need to add coloumn before the COUNT field to see the Percentage out of all COUNT field value for respective raw.
=============================================
COUNT CODE sConnType tConnType... (6 Replies)
Discussion started by: Iroshan
6 Replies
4. Shell Programming and Scripting
i am trying to get percentage : but not able to do it:
i tried :
x=1
y=2
z=`expr $x/$y*100`
it is not giving me result
can u pls help on this (4 Replies)
Discussion started by: Aditya.Gurgaon
4 Replies
5. Shell Programming and Scripting
I had issues with processes locking up. This script checks for processes and kills them if they are older than a certain time.
Its uses some functions you'll need to define or remove, like slog() which I use for logging, and is_running() which checks if this script is already running so you can... (0 Replies)
Discussion started by: sukerman
0 Replies
6. UNIX for Dummies Questions & Answers
How to calculate percentage of two values in unix. (5 Replies)
Discussion started by: venkatesht
5 Replies
7. Solaris
Hi
Is there an easy way to identify and group currently running processes into OS processes and APP processes. Not all applications are installed as packages.
Any free tools or scripts to do this?
Many thanks. (2 Replies)
Discussion started by: wilsonee
2 Replies
8. Shell Programming and Scripting
how would you calculate percentage by per line? Given a column of 16 lines, grab each line and divide it by the sum of the entire column and multiply by 100?
thanks ... (8 Replies)
Discussion started by: rockiefx
8 Replies
9. Shell Programming and Scripting
hi, I am new to awk.. and getting used to the scripts. I have a small data set 5 coulms.. 16 rows.
1) I am trying to remove the percentages of each line of colum 3..like first line divided the sum of colum 3 divided by 100 and print it out. removing hte percentages of each line
I would really... (3 Replies)
Discussion started by: rockiefx
3 Replies
10. UNIX for Advanced & Expert Users
Is there a way to monitor certain processes and if they hang too long to kill them, but certain scripts which are expected to take a long time to let them go?
Thank you
Richard (4 Replies)
Discussion started by: ukndoit
4 Replies
FSS(7) Device and Network Interfaces FSS(7)
NAME
FSS - Fair share scheduler
DESCRIPTION
The fair share scheduler (FSS) guarantees application performance by explicitly allocating shares of CPU resources to projects. A share
indicates a project's entitlement to available CPU resources. Because shares are meaningful only in comparison with other project's shares,
the absolute quantity of shares is not important. Any number that is in proportion with the desired CPU entitlement can be used.
The goals of the FSS scheduler differ from the traditional time-sharing scheduling class (TS). In addition to scheduling individual LWPs,
the FSS scheduler schedules projects against each other, making it impossible for any project to acquire more CPU cycles simply by running
more processes concurrently.
A project's entitlement is individually calculated by FSS independently for each processor set if the project contains processes bound to
them. If a project is running on more than one processor set, it can have different entitlements on every set. A project's entitlement is
defined as a ratio between the number of shares given to a project and the sum of shares of all active projects running on the same proces-
sor set. An active project is one that has at least one running or runnable process. Entitlements are recomputed whenever any project
becomes active or inactive, or whenever the number of shares is changed.
Processor sets represent virtual machines in the FSS scheduling class and processes are scheduled independently in each processor set. That
is, processes compete with each other only if they are running on the same processor set. When a processor set is destroyed, all processes
that were bound to it are moved to the default processor set, which always exists. Empty processor sets (that is, sets without processors
in them) have no impact on the FSS scheduler behavior.
If a processor set contains a mix of TS/IA and FSS processes, the fairness of the FSS scheduling class can be compromised because these
classes use the same range of priorities. Fairness is most significantly affected if processes running in the TS scheduling class are CPU-
intensive and are bound to processors within the processor set. As a result, you should avoid having processes from TS/IA and FSS classes
share the same processor set. RT and FSS processes use disjoint priority ranges and therefore can share processor sets.
As projects execute, their CPU usage is accumulated over time. The FSS scheduler periodically decays CPU usages of every project by multi-
plying it with a decay factor, ensuring that more recent CPU usage has greater weight when taken into account for scheduling. The FSS
scheduler continually adjusts priorities of all processes to make each project's relative CPU usage converge with its entitlement.
While FSS is designed to fairly allocate cycles over a long-term time period, it is possible that projects will not receive their allocated
shares worth of CPU cycles due to uneven demand. This makes one-shot, instantaneous analysis of FSS performance data unreliable.
Note that share is not the same as utilization. A project may be allocated 50% of the system, although on the average, it uses just 20%.
Shares serve to cap a project's CPU usage only when there is competition from other projects running on the same processor set. When there
is no competition, utilization may be larger than entitlement based on shares. Allocating a small share to a busy project slows it down but
does not prevent it from completing its work if the system is not saturated.
The configuration of CPU shares is managed by the name server as a property of the project(4) database. In the following example, an entry
in the /etc/project file sets the number of shares for project "x-files" to 10:
x-files:100::::project.cpu-shares=(privileged,10,none)
Projects with undefined number of shares are given one share each. This means that such projects are treated with equal importance.
Projects with 0 shares only run when there are no projects with non-zero shares competing for the same processor set. The maximum number of
shares that can be assigned to one project is 65535.
You can use the prctl(1) command to determine the current share assignment for a given project:
$ prctl -n project.cpu-shares -i project x-files
or to change the amount of shares if you have root privileges:
# prctl -r -n project.cpu-shares -v 5 -i project x-files
See the prctl(1) man page for additional information on how to modify and examine resource controls associated with active processes,
tasks, or projects on the system. See resource_controls(5) for a description of the resource controls supported in the current release of
the Solaris operating system.
By default, project "system" (project ID 0) includes all system daemons started by initialization scripts and has an "unlimited" amount of
shares. That is, it is always scheduled first no matter how many shares are given to other projects.
The following command sets FSS as the default scheduler for the system:
# dispadmin -d FSS
This change will take effect on the next reboot. Alternatively, you can move processes from the time-share scheduling class (as well as the
special case of init) into the FSS class without changing your default scheduling class and rebooting by becoming root, and then using the
priocntl(1) command, as shown in the following example:
# priocntl -s -c FSS -i class TS
# priocntl -s -c FSS -i pid 1
CONFIGURING SCHEDULER WITH DISPADMIN
You can use the dispadmin(1M) command to examine and "tune" the FSS scheduler's time quantum value. Time quantum is the amount of time that
a thread is allowed to run before it must relinquish the processor. The following example dumps the current time quantum for the fair share
scheduler:
$ dispadmin -g -c FSS
#
# Fair Share Scheduler Configuration
#
RES=1000
#
# Time Quantum
#
QUANTUM=110
The value of the QUANTUM represents some fraction of a second with the fractional value determied by the reciprocal value of RES. With the
default value of RES = 1000, the reciprocal of 1000 is .001, or milliseconds. Thus, by default, the QUANTUM value represents the time quan-
tum in milliseconds.
If you change the RES value using dispadmin with the -r option, you also change the QUANTUM value. For example, instead of quantum of 110
with RES of 1000, a quantum of 11 with a RES of 100 results. The fractional unit is different while the amount of time is the same.
You can use the -s option to change the time quantum value. Note that such changes are not preserved across reboot. Please refer to the
dispadmin(1M) man page for additional information.
ATTRIBUTES
See attributes(5) for descriptions of the following attributes:
+-----------------------------+-----------------------------+
| ATTRIBUTE TYPE | ATTRIBUTE VALUE |
|Architecture |SUNWcsu |
+-----------------------------+-----------------------------+
SEE ALSO
prctl(1), priocntl(1), dispadmin(1M), psrset(1M), priocntl(2), project(4), attributes(5), resource_controls(5)
System Administration Guide: N1 Grid Containers, Resource Management, and Solaris Zones
SunOS 5.10 1 Oct 2004 FSS(7)