LOW ENERGY DATA MANAGEMENT, NON-VOLATILE MEMORY, AND REAL-TIME DATA ANALYTICS

Опубликовано в журнале: Научный журнал «Интернаука» № 1(271)
Рубрика журнала: 3. Информационные технологии
DOI статьи: 10.32743/26870142.2023.1.271.350644
Библиографическое описание
Абдурахимов М.А. LOW ENERGY DATA MANAGEMENT, NON-VOLATILE MEMORY, AND REAL-TIME DATA ANALYTICS // Интернаука: электрон. научн. журн. 2023. № 1(271). URL: https://internauka.org/journal/science/internauka/271 (дата обращения: 26.12.2024). DOI:10.32743/26870142.2023.1.271.350644

LOW ENERGY DATA MANAGEMENT, NON-VOLATILE MEMORY, AND REAL-TIME DATA ANALYTICS

Muslimbek Abdurakhimov

Fundamental and Applied Physics Department Northern Arctic Federal University named after M.V. Lomonosov,

 Russia, Arkhangelsk

ABSTRACT

In these days, there are more and more data in the society and it is going to be challenging to control, secure this amount of data due to lack of flexible systems. This paper covered Low Energy Data Management, and shows new methods of effective data analysis to save the environment in the long- term time.

 

Keywords: memory, real-time, server, computer, internal memory, external memory.

 

IT energy management or Green IT according to the International Global & Green ICT Federation "IFGICT" is the analysis and management of energy demand within the Information Technology department in any organization. IT energy demand is about 2% of the global volume of Co

2 emissions, roughly the same as aviation and account for over 10% of global energy consumption (aviation accounts for over 50% of energy consumption). IT can account for 25% of the energy costs of a modern office building at the same time, the main sources of managed IT energy demand are PCs and monitors, which account for 39% of energy use, followed by 23% of data center and server energy use in 2006, the US IT infrastructures consumed approximately 61 billion kWh of energy at a cost of $45 billion. There is a huge opportunity for businesses to optimize IT energy use computers, data centers, and networks consume 10% of the world's electricity 30% of this electricity is spent on power terminal equipment (computers, mobile phones, and other devices), 30% on data centers and 40% on the network A router consumes 10 kW power is questionable - discuss] and a large data center consumes almost 100 MW

Data centers can use up to 100 times more energy than a standard office building. Information technology equipment in a data center often uses less than 15% of the original energy. the energy management of the equipment is much improved.

Servers and data centers account for 23 percent of IT energy demand As equipment gets smaller and cheaper, energy costs account for a larger portion of server or data center costs. This allows for gains through server optimization. This is usually done by running diagnostic tests on individual servers and using these measurements to develop a data center energy demand model. By analyzing each server in the data center, server power management software can determine which servers can be shut down. It can also enable the virtualization of servers, consolidation of processes into fewer servers, and servers with predictable cyclical power requirements. allows you to completely shut down when not in using Active power management features are included that bring the rest of the server to its lowest power state, allowing it to wake up immediately on demand if necessary Energy efficiency ratings such as SPECpower or similar similar features Average CPU power can be used to compare server performance Performance per watt Scientific studies show that. In the US, 50% of computers shut down overnight, consuming 28.8 billion kWh of energy per year and $2.8 billion per year. In Europe, user behavior is somewhat different. An estimated 28% of computers are left on overnight in the UK, resulting in 2.5 billion kWh of energy lost each year, worth £300 million.

In Germany, with about 30% of computers left overnight, 48 billion kWh of energy is wasted each year and costs 919 million euros There is a significant third-party market Power management software Offer features not available in the Windows operating system.

Many products offer Active Directory integration with multiple power plans, scheduled power plans, anti-sleep features, and enterprise power usage reporting with more advanced suggestions and per-user/machine settings.

Energy efficient smoker

Energy-efficient Ethernet (IEEE 802.3az) can reduce the power consumption of network equipment In 2005, all network interface controllers (in computers, switches, and routers) in the United States used an estimated 53 terawatt-hours of electricity. According to a researcher at Lawrence Berkeley Lab, Energy-Efficient Ethernet could save about $450 million a year in energy use in the U.S. [15] Most of the savings come from home computers ($200 million) and offices ($170 million), with the remaining $80 million from data centers. Energy-efficient Ethernet saves energy by allowing network connections to go into a low-power sleep mode or operate more slowly when no data is available Also, low-power signaling is specified for use on high-quality cables.

IT Energy Management Organizations and Resources

There are a number of industry associations and political organizations whose work on improving energy efficiency includes providing IT energy management resources and information. This includes:

Green fence

Alliance for energy conservation

Computing Initiative for Climate Savers

Level 2 (Low Carbon ITC Network)

A memory device is a part of an electronic calculator (EHM), a digital calculator (DHM), and a computer designed for recording, storing, and "returning" information when the operator searches. It mainly consists of integrated microcircuits. mechanical pushing, changing the magnetic properties of magnetic materials (magnetic disk, magnetic tape, etc.), accumulation of electrostatic charges in dielectrics, use of sound and ultrasound vibrations, application of superconductivity phenomena, and other actions

The memory device mainly consists of super-operational, operational, and external devices. According to the method of searching for information, address (a necessary number is placed in each memory slot and information is searched for a specific address) and associative (information Searched by the sum of symptoms) The memory device is different. There are non-erasable (information in diode matrices, perfolents, etc.) and erasable (information in magnetic conductors, ferromagnetic cores, etc.) types of memory devices. The main performance indicator of the memory device capacity, whose unit is measured in bits or bytes (8 bits), i.e. the number of characters that can be stored in a memory device at the same time.

The human brain is the most perfect memory device. It contains (10-15)109 g neutrons, each of which constitutes a memory cell. takes from the memory and records the results to it. The computer "reads" the information from the disk, stores it in a special part, and directly uses it during work. This special device is called RAM. The capabilities of the computer depending on the RAM capacity. If Mbyte or less, it will work only in MS-DOS OS environment, if 4 Mbyte, MS-DOS OS, Windows 31 environment, if 32 Mbyte and more, it will work on the local network (internet, e-mail Ernail) In most computers, additional RAM is placed between the main memory and the most frequently used data is stored in this memory. In the IBM PC, there are also BIOS (non-volatile memory) and CMOS (semi-permanent memory) types of memory. programs, programs for loading the operating system, and performing the tasks of servicing computer devices are stored. Thanks to the use of all, it was possible to create a memory device whose capacity is close to the capacity of the human brain.

 

References:

  1. Gartner press release, April 26, 2007, Gartner estimates IT industry accounts for 2% of global CO? Issue http://www.gartner com/it/page.jsp?id=503867
  2. MILLS, Mark P Cloud Begins With Coal Digital Power Group Online http://www tech-pundit.com/wp content/uploads/2013/07/Cloud_Begins With Coal pdf 2013
  3. Gartner Inc, "IT Vendors, Service Providers, and Users Can Simplify IT's Environmental Perspective" Simon Mingay, December 5, 2007 4. a b Steve Klevnhans. VP Computing. Gartner's presentation "Green computing Beloglazov, Anton; Buyya, Rajkumar; Xun Li, yosh; Zomaya, Albert. "Energiya tejaydigan ma'lumotlar markazlari va bulutli hisoblash tizimlari taksonomiyasi va tadqiqotlari". arXiv:1007.0066.
  4. E. Kori, B. Guyon, S.Sheridan va B. Donnellan, "Barqaror IT qobiliyatini rivojlantirish: Intel sayohatidan darslar" MIS choraklik ijrochi, vol. 11, yo'q. 2, 61-74 betlar, 2012.