Ten ways to troubleshoot a slow PC
User complaints are minimal when new PCs are rolled out. They start up
quick, and programs seem to open in a snap. But over time, users begin
to notice that their system is slow or that it hangs up often. While the
possibilities for system slowdown are endless, I have identified 10
common troubleshooting areas you should examine first before you suggest
to management that it's time for an upgrade.
1. Processor overheating -- Modern processors generate a lot of
heat. That's why all processors require some sort of cooling element,
typically a fan of some type. When the processor temperature goes over
spec, the system can slow down or run erratically. The processor fan may
fail for several reasons:
* Dust is preventing the fan from spinning smoothly.
* The fan motor has failed.
* The fan bearings are loose and "jiggling".
Often you can tell if there is a fan problem by listening and/or
touching the computer. A fan that has loose bearings starts jiggling and
vibrates the case, making a characteristic noise. You may barely notice
the noise at first, and it's common for even the experienced computer
pro to overlook this change. But as time goes by, the sounds and
vibrations will become so prominent that you'll change the fan out just
to stop the racket!
You don't always need to replace the fan. If it is covered with dust,
you can often spray away the dust with compressed air. Note that even
though you might get the fan running again, its life span has likely
been reduced because of the overwork. You should keep an extra fan in
reserve in case of failure.
There are a number of utilities that will track the temperature of your processor and case.
2. Bad RAM -- Several situations can lead to a bad RAM relationship with a particular machine:
* RAM timing is slower than optimal machine spec.
* RAM has minor flaws that only appear on detailed testing.
* RAM is overheating.
In the "old days" of Fast Page RAM, buying new RAM for your computer was
a pretty simple affair. You just needed to know what speed your
motherboard supported and the maximum each slot would take. Today, there
are many different speeds of RAM, and the better motherboards may be
tolerant of using RAM that does not match the motherboard's maximum
specs. For example, your motherboard may support PC133 RAM but will
still work with PC100 RAM. But be aware that you may see performance
decreases if you install RAM that is slower than the maximum spec.
Minor flaws in RAM chips can lead to system slowdowns and instability.
The least expensive chips often have minor flaws that will cause your
system to slow down or Blue Screen intermittently. Although built-in
mechanisms may allow the system to keep working, there is a performance
hit when it has to deal with flawed RAM chips.
In the past, no one worried about RAM chips getting hot, because they
didn't seem to generate much heat. But that’s changed with newer RAM
types, especially SDRAM. To check for overheating, open your computer's
case, power down, and pull the plug out. Ground yourself and touch the
plastic on one of your RAM chips. Ouch! They get pretty hot. If you find
that your RAM chips are overheating, you should consider buying a
separate fan to cool your memory. If your motherboard doesn’t support a
RAM fan, you might be able to get enough additional cooling by
installing a fan card that plugs in to a PCI slot.
Tip: Some motherboards will even allow you to mix speeds but will default to the slowest RAM installed.
3. Failing hard disk -- There are many signs of imminent failure before a hard disk finally gives up. Some of these signs include:
* Slow access times on the affected drive.
* An increasing number of bad sectors when running scandisk and chkdsk.
* Unexplained Blue Screens.
* Intermittent boot failures.
Detecting a failing hard disk can be tricky because the early signs are
subtle. Experienced computer professionals can often hear a change in
the normal disk spin. After the disk deteriorates further, you'll see
the system crawl to a standstill. Write processes will take a long time
as the system tries to find good blocks to write to. (This will occur if
you’re using a robust file system such as NTFS; other file systems will
likely Blue Screen the computer.)
When you notice the system slow down, run scandisk or chkdsk, depending
on your operating system. If you notice a bad sector where a good sector
existed earlier, that's a clue that the disk is going bad. Back up the
data on the disk and prepare for it to fail soon. Make sure you have a
spare disk ready so you can replace it when it fails, or replace the
disk as soon as you notice the early signs of failure.
Disk noise and scandisk/chkdsk are your best indicators for identifying a
failing drive that's leading to a system slowdown. However, if you are
managing a system remotely, or you can’t take the system down for a full
chkdsk/R, you can use tools that monitor disk health, such as Executive
Software's DiskAlert.
4. BIOS settings -- One often-ignored culprit of system slowdown is
the machine's BIOS settings. Most people accept the BIOS settings as
they were configured in the factory and leave them as is. However,
slowdowns may occur if the BIOS settings do not match the optimal
machine configuration. Often you can improve machine performance by
researching your motherboard's optimal BIOS settings -- which may not be
the same as the factory defaults.
There is no centralised database of optimal BIOS settings, but a simple
Web search on your motherboard name and BIOS as keywords should yield
the correct settings.
5. Disk type/controller compatibility -- You've just purchased a
new UDMA-66 disk drive, and it doesn't seem any faster than any of the
other drives in your machine. You do some benchmark testing, and the new
disk tests the same as the other drives in your system. So what's the
problem?
It could be that your motherboard doesn't support the UDMA 66
specification. Check your manual to determine what type of IDE interface
it supports. If the motherboard only supports UDMA 33, then your UDMA
66 throttles down for backwards compatibility. You can get around this
problem by installing a PCI UDMA 66 add-on card and plugging the new
drive in to that interface.
Another potential problem may be the cable type you are using. UDMA 66+
drives require a different cable than older drive types. The drive may
not work at all with the old cable type. Aged cables will break down
over time, especially if they are tightly folded and the temperature of
the case remains consistently high. It's always worthwhile to change out
the drive cable to see if performance improves.
6. Windows services -- Many Windows services are enabled by
default. Many of these services, however, are not required for your
machine to run properly. You should review the services running on your
Windows 2000/Windows XP computer and disable those that you don't need.
One way to see what services are running is to use the Services applet
found in the Administrative Tools menu. Rightclick My Computer and
select Manage. Important information contained in the Services console
includes the service Name, Status, and Startup Type. You can get more
details on a service by double-clicking on it to bring up the service's
Properties.
You can stop the service by clicking the Stop button. If you are sure
that you don't need the service, click the down arrow in the Startup
Type drop-down list box and set the service to Disabled. If you are not
sure if you need the service, change the Startup Type to Manual. Then
you’ll have the option of manually starting the service if you find that
you need it.
Another way of controlling which services start is using the msconfig
utility. Open the Run dialog box and type msconfig in the Open text box.
The Essential column shows services Microsoft considers essential to
running the computer. However, note that many required services are not
defined as essential in the System Configuration Utility window. You can
prevent a service from starting at bootup by unchecking the check box
to the left of the service.
One service that is well known for slowing down Windows 2000/Windows XP
systems is the Indexing Service. This service indexes the content of
each hard disk and makes it easier for the Search utility to find files.
Unless you are running a Web site that uses the indexing service, you
may want to disable it to improve performance.
7. Runaway processes -- Runaway processes take up all of the
processors' cycles. The usual suspects are badly written device drivers,
and legacy software installed on a newer operating system. You can
identify a runaway process by looking at the process list in the Windows
Task Manager. Any process that takes almost 100 percent of the
processing time is likely a runaway process.
There are exceptions to this rule. On a smoothly running system, the
System Idle Process should be consuming the majority of the processor
cycles most of the time. If any other process were to take up 98 percent
of the processor cycles, you might have a runaway process.
If you do find a runaway process, you can right-click the process and
click the End Process command. You may need to stop some processes, such
as runaway system services, from the Services console. If you can't
stop the service using the console, you may need to reboot the system.
Sometimes a hard reboot is required.
8. Disk fragmentation -- As files are added, deleted, and changed
on a disk, the contents of the file can become spread across sectors
located in disparate regions of the disk. This is file fragmentation.
Some operating systems, such as Windows NT, don't have a built-in defrag
utility; you must obtain a third-party solution, such as Executive
Software’s Diskeeper.
Disk fragmentation can significantly slow down your machine. The disk
heads must move back and forth while seeking all the fragments of a
file. A common cause of disk fragmentation is a disk that is too full.
You should keep 20 percent to 25 percent of your hard disk space free to
minimise file fragmentation and to improve the defragmenter's ability
to defrag the disk. Thus, if a disk is too full, move some files off the
drive and restart the defragmenter.
9. Background applications -- Have you ever visited an end-user's
desktop and noticed a dozen icons in the system tray? Each icon
represents a process running in either the foreground or background.
Most of them are running in the background, so the users may not be
aware that they are running 20+ applications at the same time.
This is due to applications starting up automatically in the background.
Look first for such programs in the Startup folder in the Start menu.
Many applications place components in the Startup folder to run in the
background. Some of these, such as the Microsoft Office Findfast, can
really chew up processor and disk time and noticeably slow down a
system. Review each of the entries in the Startup folder and delete any
that are unnecessary.
10. File system issues -- Some file systems work better than
others for large disk partitions. If the machine runs Windows NT 4.0,
Windows 2000, or Windows XP, you should use the NTFS file system for
best performance.
File system performance is closely related to cluster size and the
number of clusters on the disk. NTFS file systems will bog down if you
have a 60-GB hard disk configured with a cluster size of 512 bytes. This
creates an enormous number of clusters, which the file system must
track and seek. This becomes especially problematic when the drive is
highly fragmented. One solution is to use larger cluster sizes. If you
set the cluster size to 4K or larger, you will see noticeable
improvement in file load times. Please note, however, that large
clusters can significantly increase the amount of cluster slack space
and lead to a lot of wasted disk space.
Another trick to alleviate file system issues involves tweaking some Registry values (Start Menu|Run|Regedit):
* The first Registry value you can tweak is
NtfsDisable8dot3NameCreation, which can be found at
HKEY_LOCAL_MACHINE\SYSTEM\CurrentControlSet\Contro l\Filesystem. When
you set this value to 1, it stops NTFS from generating the 8.3
file-naming convention used for backward compatibility. If you do not
need these old filenames, you can improve performance by preventing NTFS
from creating them.
* Another useful NTFS entry is the NtfsDisableLastAccess value,
which can be found at HKEY_LOCAL_MACHINE\SYSTEM\CurrentControlSet\Contro
l\Filesystem. This is a REG_DWORD entry, and when it is set to 1, it
will prevent NTFS from updating the date and time stamp of directories
after they are browsed. However, this does not prevent an update to the
file-access information when a file is opened or changed.
If you are not using the NTFS file system, you may be able to improve
performance by moving files and folders out of the root directory. With
FAT partitions, you may notice a big slowdown in system performance
after running scandisk because a large number of .chk files are placed
in the root directory. Users sometimes fill their root directories by
making it the default file storage location. Move as many files and
folders as possible out of the root directory, and performance should
improve significantly.
source:znet
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