Friday, April 21, 2017

Cacheman Multilingual Portable

Outertech Cacheman Multilingual

Outertech Cacheman Multilingual

Cacheman is a Windows software designed to speed up your computer by optimizing several caches, managing RAM and fine tuning a number of system settings. Auto-Optimization makes it suitable for novice and intermediate users yet it is also powerful and versatile enough for computer experts. Backups of settings ensure that all user modifications can be reversed with a single click.

Cacheman takes Memory Management to the next level. You can define which applications have the most importance to you. When your system runs out of RAM Cacheman will take it away from non essential programs and give it to the important ones. This is a drastic improvement to the default Windows memory management. You can even limit the RAM a specific application can use.

Cacheman Auto-Optimize is a one-click function which will examine your system and apply automatically best settings and system tweaks in order to improve performance and stability. You can also make your computer more suitable for a specific task by selecting individual Auto-Optimization profiles like “Gaming Computer” or “Network Server”.

Speed up your PC by optimizing cache
A computer cache is a special high-speed storage mechanism. If requested data is present in a cache, it can be delivered faster. Cacheman can improve your computer by tweaking cache components. You can use Auto-Optimize to get the best tweaks for all cache parameters. Alternatively every tweak can be configured manually.

Display free RAM and processor usage
Cacheman can display from 1 to 5 tray icons in the Windows tray area. On the options tab you can configure what system information should be displayed. By default Cacheman shows free memory and CPU usage of individual processor cores as numbers. You can also change the type (graph, block, number) and the colors of the tray icon display. The option tab gives you also the opportunity to change the visual aspects of the main Cacheman window.

Manage running applications
Cacheman can also display a list of loaded Windows processes (applications and system services) along with detailed information including RAM and CPU usage. Cacheman can remove crashed applications from memory, even in situations when the task manager fails to do so! Right-click the name of the application and select Kill Process to remove a non responding application from memory within a second. Other process management functions include lowering the RAM usage of an application or system service, bringing the program window to front or opening Explorer with the installation folder of the selected process.

Manage computer memory (RAM)
Cacheman takes memory management to the next level. You can define which applications have the most importance to you. When your system runs out of RAM, Cacheman will take it away from non essential programs and give it to the important ones. This is a drastic improvement to the default Windows memory management.

Set process priority permanently
In Windows an application (=process) can be set to temporarily run with a higher or lower CPU priority. When a higher priority is set for a process, Windows will give more resources for it. A process with a low priority will get resources only if your computer is not busy. Cacheman offers the ability to set process priority permanently, such that it will survive a program restart and even a computer reboot. The feature is called Sticky Priority. This means that you can set a process to high, reboot your computer, and Cacheman will ensure that the process has still high priority upon restart. You can also set Cacheman to change process priority dynamically.

Internet Accelerator
Cacheman works also as an Internet Accelerator by optimizing the Firefox/IE DNS cache parameters and the Internet Explorer server connection settings. Besides the Internet Accelerator capabilities Cacheman tweaks the Local Area Network (LAN) connection including the shares of a Windows file server. Cacheman has you covered with an advanced backup feature that allows you to revert any of your tweaks with a single click!

Whats New:
· New processor support: AMD Ryzen 7 1700, 1700X, 1800X and Ryzen 5 1400, 1500X, 1600, 1600X. AMD Ryzen 7 users should read the note at the end of this list.
· Improved Max Performance and Best of All Worlds profiles for AMD Ryzen and Intel Core CPUs
· Added 4 more optional Tray Icons:
A maximum of 9 Tray Icons is now possible, so free RAM and CPU usage of up to 8 cores can be displayed at the same time
· Separated Show hidden and system files into two separate tweaks
· Changed Network-share recursive events to Network share file change notifactions tweak (more reliable)
· Added Energy-Profile and Syskey access tweaks
· Added links to 'Customize Tray Area', 'Network Center', and 'Default programs' to Tools and Tray Icon menus
· Better Unicode support for non Western languages
· Sticky Core affinity feature: tie processes to specific CPU Cores; Affinity will survive a reboot or program restart

Note to AMD Ryzen 7 users:
The AMD Ryzen CPU consists of 16 CPU cores - 8 physical and 8 virtual (emulated) cores. The physical cores are placed on the CPU die in two groups of 4 cores each, the so called CCX (CPU Complex). The two groups are interconnected with with a 256-bit wide bi-directional crossbar. The speed of the crossbar is linked to the speed of your system memory (RAM). Within a CCX group CPU cores can communicate very quickly with each other. Communication between cores that sit on two separate CCX groups is significantly slower (by the factor of 2 and more).

Windows 10 appears to not be aware that the Ryzen processor consists of two individual CPU core groups. Switching program threads from one CCX group to another can cause performance degradation on an otherwise very fast processor. During our tests in the Outertech lab we have discovered that tying some Windows applications to the first CCX group (4 physical + 4 virtual cores) can increase the performance by a significant factor, as thread switching between two CCX groups is avoided. This will work well only with application that do not make full use of all 16 CPU cores, particularly computer games.



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