![]() ![]() In the file, change the alighment='top_left‘ value to right as shown in the below screenshot. ![]() In the above screenshot we can see the Conky placement on the left side by default, thus to move to to right and perform further configuration we will edit its configuration file. Well, we can configure it further to change its location, appearance, and more… INTERFACE MEMORY PROCSSOR INSTALLHowever, after install in the standard configuration, you will see the Conky system monitor on the left side of the screen in black and white color which could be dull and boring for some users. For example, you could show sports results or news about certain keywords. It is not just limited to this, furthermore, the user can also access third-party scripts, programs, and websites. In CentOS, Fedora, or RHEL systems sudo nano /etc/xdg/autostart/sktopĬonky can use over 300 integrated objects to display various information or values such as for CPU, RAM and hard drives, email accounts, various music players, processes, network traffic, and much more. To Save the file press Ctrl+X then type Y and hit the Enter Key. In Ubuntu or Debian based system: sudo nano ~/.config/autostart/sktop ![]() However, to start Conky automatically with system boot up, we need to set it as a startup application. Once the installation is completed to start this tool, the user just needs to type conky & in the Terminal whereas on CentOS to RHEL type. OpenCAPI is an open coherent high-performance bus interface.Start Conky with the boot as Autostart application The OpenCAPI Consortium is a not-for-profit organization formed in 2016 and is an open forum to manage the OpenCAPI specifications. Unifying these disparate interfaces is a top priority and OMI looks to have all the right ingredients for our industry to rally around.” “OMI can provide the high capacity, low latency, high performance Near Memory that will be critical for some of the most demanding big data applications,” said Tom Coughlin, Coughlin Associates.Īllan Cantle, OpenCAPI Consortium’s Technical Director commented, “I am delighted with Jim’s and Tom’s analysis of Near Memory trends and challenges. “By moving the DRAM signals off the processor and into the DIMM, OMI increases memory channel bandwidth while reducing the die area penalty on the processor.” “Memory channels consume valuable die area on processors,” said Jim Handy of Objective Analysis. OMI is a highly tuned bus derived from OpenCAPI and not only pushes the boundaries in meeting Near Memory needs, it’s an open standard and ready for adoption as products exist today. The Near Memory interfaces discussed included DDR, HBM (High Bandwidth Memory) and OMI (Open Memory Interface). The white paper investigates how Near Memory attachment can create advantages in performance, cost, and flexibility. In this case, the focus was on the critical needs of Near Memory rather than Far Memory which is widely addressed in our industry. Their findings were presented and published at the SNIA Persistent Memory + Computational Storage Summit (April 21-22, 2021). PISCATAWAY, N.J., Ap(GLOBE NEWSWIRE) - A White Paper titled “The Future of Low-Latency Memory” by the memory and storage specialists, Objective Analysis and Coughlin Associates, compared and contrasted different memory interfaces. ![]() The Future of Low-Latency Memory – Why Near Memory Requires a New Interface ![]()
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |