Wise Disk Cleaner Free Utility

Wise Disk Cleaner is a user friendly, fast and easy to use application developed to free up disk space by deleting junk files that are no longer used by any software on your system. Even the least experienced user can easily remove junk files with this tool.

Your hard disk is littered with junk files you don’t need, taking up precious hard disk space, and potentially slowing down your computer’s performance. There are files of all kinds, such as temporary files that applications should delete when they’re no longer needed, and various log files, index files and backup files. You’d be amazed at how much space these junk files take up.

Wise Disk Cleaner can identify more than 50 types of junk files, and you can customize the list. The program only deletes the files that you tell it to. You can choose to have the files permanently deleted, or else first moved to the Recycle Bin. Other options you can choose from are do the cleanup automatically, or manually. You’ll be amazed at how much hard disk space this program can gain for you, so automatically got back plenty of hard disk space.

The Professional Edition provides additional advanced options. It lets you identify more junk files and old files. And for your safety, you can move these files to a designated folder, allowing you to restore them if needed. You can also export files that list in the result table to MS Excel. While the professional software version (cost $20) gives extra functions, the basic free release is useful enough and could be considered as a valuable addition to your Hard Drive maintenance toolbox.


Homepage: http://free-disk-cleaner.wisecleaner.com/

Download: http://www.ziddu.com/download/3708805/WDC4Free.exe.html


OS: Windows 98/ME/NT/2000/XP/XP-X64/2003/Vista.
License: Freeware.

PC requirements: Pentium 233 MHz or above. 32 MB RAM or above, 5 MB hard drive space or more.

Languages: English; Dansk; Japanese; Polski (PL); Chinese; (Simplified); Chinese (Traditional); Bulgarian (BG); Dutch Belgium (DUT); German; Italiano; Magyar; Portuguese; French (FR); Turkish (TR); Hebrew; Slovak; Indonesian; Dutch; Valencian; Russian; Korean; Czech; Norsk; Spanish; Portuguese (European); Svenska; Serbian; Arabic.

Hard Drive Troubleshooting

Hard drives are complex, as you may already notice through the Hard Drives basics reviews. They have a circuit board and a number of precise mechanical moving parts. In terms of hard drive data recovery, the first thing that you must evaluate is whether it is a hardware problem that is stopping you from accessing your data. Common hardware problems include a faulty circuit board or problems with the actuator arm.

A faulty circuit board is characterize by a drive that does not ’spin up’, meaning that platters are not turning underneath the copper wire. A faulty actuator arm or more serious mechanical error is characterized by an abnormal clicking noise or a grinding noise. The best advice in determining whether you have a hardware problem is to listen to the sound of your hard drive. If you cannot hear the platters spinning (i.e. it is quiet when it is turned on) or you hear more serious noises then you should stop using the drive immediately and you will need to send your drive to a hardware data recovery service.

Note that the hardware data recovery can be expensive because technicians most likely will need to disassemble your hard drive to fix the problem. Hard drive data recovery is usually done in a ’clean room’ as hard drives are sealed to avoid errors caused by dust or other particles. Also hard drives are finely tuned machinery and it takes specialist equipment to read the platters from a physically damaged drive.

If you are sending your hard drive to a data recovery specialist then you should attempt to obtain an upfront estimate of fees (although you will rarely get one), ask that if you send your hard drive for quotation purposes will they send it back to you in the same condition if you choose not to use the service, and make sure you send it to a reputable company as you may only get one chance at hard drive data recovery.

In most cases, the hard drives do not die suddenly, but the performance degrades with time. Since the data recovery might be a complicated and expensive procedure, it is recommended to prevent the damaging results of the failure by taking prompt backups of the important data, while the drive is still accessible.

Source: http://www.recovermyfiles.com/data-recovery-software.php

Hard Drives Interface

Typically, PCs rely on either a PATA (Parallel Advanced Technology Attachment) or SATA (Serial ATA) connection to a hard drive. You might even have both: Most modern motherboards offer both interfaces during the current period of transition from PATA to SATA; this arrangement is likely to continue for some time, as the PATA interface will remain necessary for connecting internal optical drives to the PC. The parallel in PATA means that data is sent in parallel down multiple data lines. SATA sends data serially up and down a single twisted pair.

PATA drives (also commonly called IDE drives) come in a variety of speeds. The original ATA interface of the 1980s supported a maximum transfer rate of 8.3MB per second--which was very fast for its time. ATA-2 boosted the maximum throughput to 16.6MBps. Subsequently, Ultra ATA arrived in 33MBps, 66MBps, 100MBps, and 133MBps flavors referred to as Ultra DMA-33 (Direct Memory Access) through Ultra DMA-133 or Ultra ATA-33 through Ultra ATA-133. The odds are overwhelming that you have Ultra ATA-66 or better unless your PC is more than seven years old.

You can typically recognize an ATA drive by its 2-inch-wide 40-wire or 80-wire cables, though some 40-pin cables are round. Desktop drives typically use a 40-pin connector; the extra wires on 80-wire cables are to physically separate the data wires to prevent crosstalk at ATA-100 and ATA-133 speeds. Notebooks with 2.5-inch drives use a 44-pin connector, and 1.8-inch drives use a 50-pin connector.

At 133MB per second, the ATA interface began to run into insurmountable technical challenges. In response to those challenges, the SATA interface was designed. At the moment, SATA comes in two flavors: 150MBps and 300MBps. Spec mongers may notice that those two versions are alternately referred to as 1.5-gigabit-per-second SATA and 3-gbps SATA, but the math seems a little fuzzy: 3 gbps divided by 8 (the number of bits in a byte) is 375MBps, not the 300MBps you’ll see referred to. This is because the gigabits-per-second-speed is a signaling rate; 300MBps is the maximum transfer rate of the data. The roadmap for the interface sees speed doubling yet again. As it stands today, however, the sustained data transfer rate of single SATA hard drives is comfortably handled within the 150MBps spec. It takes a striped RAID, which feeds the data from two or more drives into the pipeline, to benefit from the greater bandwidth of a 300MBps interface.

SATA drives have a much thinner cable and smaller connectors than ATA drives, which allows for more connectors on motherboards and better airflow inside cases. And SATA simplifies setup by using a point-to-point topology, allowing one connection per port and cable. So gone are the jumpers and master/slave connections of PATA drives, where one cable would be used to connect two drives. And unlike PATA, SATA is also suitable for direct-attached external drives, allowing up to 2-meter-long cables on an interface (referred to as external SATA, or eSATA) that’s significantly faster than USB 2.0 or FireWire. External SATA added a slightly different connector that’s rated for more insertions and designed to lock in place, plus some additional error correction, but it is otherwise completely compatible.

One connection interface you hear less about these days is SCSI (for Small Computer System Interface). At one time, SCSI was a means to achieving faster performance from a desktop hard drive; however, the SATA connection has since replaced SCSI.

Source: http://www.pcworld.com/article/18693/how_it_works_hard_drives.html