Green IT - Green Information Technology.
A person who cares about the earth & IT, will Go green with Green IT.
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This document discusses an IoT-based analytical solution called Greeniee that helps enterprises reduce energy spending through real-time data insights. Greeniee monitors energy usage at the distribution board level using non-intrusive hardware and provides analytics via a cloud-based dashboard. It alerts users if equipment exceeds rated power limits or power factor falls below prescribed levels. Greeniee also allows users to monitor equipment-level energy usage and correlate it with business operations to identify wastage and overspending on energy.
Foundation center green it presentation apr2010guest1883a7
The document discusses green IT practices that can help reduce the environmental impact of technology use and lower costs. It provides guidance on adopting practices for hardware, software, and technology-enabled green operations. Specific recommendations include using power management for devices, virtualizing servers, hosting software remotely to reduce travel, and utilizing IT solutions to enable paperless operations and remote collaboration. The overall message is that greening IT does not require major changes or resources, and starting with desktop power management and travel reduction can have high impact.
This document discusses the utility and limitations of PUE (Power Usage Effectiveness) as a data center efficiency metric. While PUE is a useful high-level metric, it does not provide enough detail to optimize efficiency. PUE only measures the ratio of total facility power to IT equipment power, but does not account for factors like server utilization, resilience, or diversity of the IT load. The document argues that more detailed energy monitoring data is needed at the server, rack, and application level over time to properly evaluate efficiency and enable tangible efficiency actions.
Virtualization allows multiple operating systems and applications to run on a single computer using a hypervisor. It is considered green computing because it decreases energy usage and toxic waste by reducing the number of physical devices needed. There are several types of virtualization including server, application, network, storage, and desktop virtualization. Server virtualization specifically allows many virtual servers to run on a single physical server, decreasing energy usage and saving floor space. Overall, virtualization improves hardware utilization and flexibility while lowering costs and environmental impact through reduced resource consumption.
This webinar discusses selecting the right hardware for an electronic medical record (EMR)-based practice. It outlines key questions to consider regarding devices for different settings and dealing with small spaces. The presentation then describes the hardware configuration of a family practice that has used a full EMR since 2002, including desktops, servers, printers, and strategies to avoid downtime. The presentation warns against some potential pitfalls and concludes with a hardware wish list and recommendations for a successful hardware purchase.
A dummies guide to Green IT. This presentation sets the stage for green IT, and attempts to present some solutions. This is not a definitive guide to Green IT, but it may be a start.
Green Business are the future business and Green IT can be one of the best business for future which help companies in Energy Efficiency and also help in CSR and also save the environment.
9 Best Practices for Data Center MaintenanceSunbird DCIM
Data center maintenance is critical to keep your facility up and running smoothly. Given the importance of your data center, DCIM experts at Sunbird bring forward some best practices for maintenance. Our DCIM experts have worked for years in the data center industry. Here's what we've learned from our own experiences and from our customers.
This document discusses an IoT-based analytical solution called Greeniee that helps enterprises reduce energy spending through real-time data insights. Greeniee monitors energy usage at the distribution board level using non-intrusive hardware and provides analytics via a cloud-based dashboard. It alerts users if equipment exceeds rated power limits or power factor falls below prescribed levels. Greeniee also allows users to monitor equipment-level energy usage and correlate it with business operations to identify wastage and overspending on energy.
Foundation center green it presentation apr2010guest1883a7
The document discusses green IT practices that can help reduce the environmental impact of technology use and lower costs. It provides guidance on adopting practices for hardware, software, and technology-enabled green operations. Specific recommendations include using power management for devices, virtualizing servers, hosting software remotely to reduce travel, and utilizing IT solutions to enable paperless operations and remote collaboration. The overall message is that greening IT does not require major changes or resources, and starting with desktop power management and travel reduction can have high impact.
This document discusses the utility and limitations of PUE (Power Usage Effectiveness) as a data center efficiency metric. While PUE is a useful high-level metric, it does not provide enough detail to optimize efficiency. PUE only measures the ratio of total facility power to IT equipment power, but does not account for factors like server utilization, resilience, or diversity of the IT load. The document argues that more detailed energy monitoring data is needed at the server, rack, and application level over time to properly evaluate efficiency and enable tangible efficiency actions.
Virtualization allows multiple operating systems and applications to run on a single computer using a hypervisor. It is considered green computing because it decreases energy usage and toxic waste by reducing the number of physical devices needed. There are several types of virtualization including server, application, network, storage, and desktop virtualization. Server virtualization specifically allows many virtual servers to run on a single physical server, decreasing energy usage and saving floor space. Overall, virtualization improves hardware utilization and flexibility while lowering costs and environmental impact through reduced resource consumption.
This webinar discusses selecting the right hardware for an electronic medical record (EMR)-based practice. It outlines key questions to consider regarding devices for different settings and dealing with small spaces. The presentation then describes the hardware configuration of a family practice that has used a full EMR since 2002, including desktops, servers, printers, and strategies to avoid downtime. The presentation warns against some potential pitfalls and concludes with a hardware wish list and recommendations for a successful hardware purchase.
A dummies guide to Green IT. This presentation sets the stage for green IT, and attempts to present some solutions. This is not a definitive guide to Green IT, but it may be a start.
Green Business are the future business and Green IT can be one of the best business for future which help companies in Energy Efficiency and also help in CSR and also save the environment.
9 Best Practices for Data Center MaintenanceSunbird DCIM
Data center maintenance is critical to keep your facility up and running smoothly. Given the importance of your data center, DCIM experts at Sunbird bring forward some best practices for maintenance. Our DCIM experts have worked for years in the data center industry. Here's what we've learned from our own experiences and from our customers.
Mainframe computers are large, reliable systems used by large corporations and governments to handle intensive workloads and preserve data permissions. Microcomputers like laptops and desktops are smaller and used by individuals for tasks like input, processing, storage and output. Minicomputers sit between mainframes and microcomputers in size and are portable devices used by mobile users for email, scheduling and web browsing.
This document discusses best practices for data centers, covering hardware performance, high availability (HA), capacity planning, and security. It addresses choosing the right hardware, benchmark testing, HA considerations like power and cooling, clustering, disaster recovery, capacity planning factors like current and future utilization, and security risks and mitigations like physical security, patching, and data backup. The goal is to provide guidance on optimizing data center operations and ensuring continuous service availability.
There are three main types of computers: analog, digital, and hybrid. Analog computers use continuous variables for mathematical operations, while digital computers use binary digits (0s and 1s) and are better suited for complex computations. Hybrid computers combine aspects of analog and digital systems. Computers can also be classified based on their size and capabilities, ranging from mainframe and minicomputers to microcomputers such as desktops, laptops, tablets, and wearable devices. Each type has distinct characteristics regarding processing power, mobility, and intended use.
Green computers (NIRAJ KUMAR FROM BIHAR)Niraj Kumar
Over the last few years, interest in “green computing” has motivated research into energy-saving techniques for enterprise systems, from network proxies and virtual machine migration to the return of thin clients.
When selecting computers, there are many other considerations than just energy, such as computational resources, and price.
The document discusses the need for optimizing data centers in a holistic, systems approach. It describes how a data center functions similarly to a computer chip with multiple optimized components. It proposes the development of a research data center facility that would contain the best current capabilities across cooling, power, networking, and software optimization. This facility would have extensive monitoring sensors to directly control and optimize operations based on real-time data.
This document provides an overview of different types of computers and their uses. It describes computers for individual use such as desktops, notebooks, tablets, handheld devices, and smartphones. It also outlines computers for organizations including network servers, mainframes, minicomputers, and supercomputers. Finally, it discusses the major impact of computers in society and how they are used in homes, education, small business, industry, government, and health care.
The document provides a five-step process for planning a new data center: 1) Determine design parameters like capacity, budget, growth plan, etc. 2) Develop a system concept by selecting a reference design. 3) Determine user requirements like preferences and constraints. 4) Generate a specification. 5) Generate a construction design. It emphasizes involving the right stakeholders, communicating at the right level of abstraction, and avoiding common mistakes like poor budgeting or an IT-focused rather than business-focused design. Following the standardized process can help complete projects on time and on budget by eliminating potential pitfalls.
This document outlines Saint Louis University's strategy for improving power management of IT equipment to reduce costs and environmental impact. Key points include:
1) SLU aims to standardize power-optimized default settings on all managed PCs and laptops through automated software and establish policies around exceptions and existing devices.
2) Potential savings are estimated from generational improvements in computer hardware and adopting lower-power modes like sleep versus screensavers.
3) The strategy also involves consolidating servers, enabling energy-efficient settings on printers and other electronics, and establishing institutional goals around student computer energy use.
Data Center Consultants: Providing Key Services for Data Center Projectsdpsir
Data center consultants are often brought into a project to ensure a successful outcome. Take a look at this presentation by Arnie W. Evdokimo, Chief Executive Officer of DP Air Corporation, a leading provider of data center design, build and maintenance services based in Phoenix, Arizona. For more information about Data Center Consultants, visit http://www.DPAir.com today.
The document discusses the four basic types of computers: super computers, mainframe computers, minicomputers, and microcomputers. Super computers consist of tens of thousands of processors able to perform billions of calculations per second. Mainframe computers are large, reliable machines used by large organizations for mission critical applications. Minicomputers are smaller than mainframes but larger than microcomputers, and are used as small or mid-range servers. Microcomputers, now commonly called personal computers, are designed for individual use and are the smallest type.
There are four main types of computers: supercomputers, mainframe computers, minicomputers, and microcomputers. Supercomputers are the most powerful and are used for specialized tasks like research and modeling. Mainframe computers are also powerful and used by large organizations to process and store large amounts of data. Minicomputers are smaller than mainframes and used by small businesses for department-specific tasks. Microcomputers are the smallest and most affordable, including desktops, laptops, tablets, and smartphones used by individuals.
The document defines and describes different types of computers based on their size, power, and intended uses. It discusses personal computers, workstations, minicomputers, mainframes, and supercomputers. It also covers different form factors for personal computers including desktop models, tower models, notebooks, subnotebooks, handhelds, palmtops, and PDAs. The key characteristics and components of all computers are also outlined.
College of Technology Pantnagar lecture- Jainendra Jainendra Kumar
The document discusses software engineering as a multi-disciplinary field that involves applying techniques, methodologies, and tools to produce high-quality software within budget and deadline constraints. It involves disciplines like computer science, mathematics, management and addresses the entire software development lifecycle from requirements to maintenance. The roles involved include software engineers, architects, analysts and managers. Key areas discussed are programming languages, databases, cloud computing, mobile app development and debugging tools.
IDC DCIM Webinar - How to Take Control of Chaos in a Lights-Out Data CenterSunbird DCIM
Led by Jennifer Cooke, Research Director, Datacenter Management, IDC, this webinar explores how to overcome the chaos and uncertainty of managing a lights-out data center. In this webinar, you’ll learn:
*Best practices for efficient capacity utilization.
*Tips to avoid downtime during a move to a lights-out data center.
*Benefits of using DCIM for remote monitoring and asset management processes.
Deskpod is a small, powerful, and energy efficient replacement for traditional desktop computers that takes up less space and uses significantly less electricity. It provides all the functionality of a regular computer while benefiting offices through lower electricity bills, efficient use of space, reduced maintenance costs, better data security, and easier data recovery compared to traditional desktop PCs. Due to these advantages, Deskpod has a high demand and replacing desktop PCs with Deskpod will help cut costs and make offices more efficient, ensuring Deskpod's success in the market.
Computer Fundamentals- Classification of Digital Computers &Applications of...Trinity Dwarka
Computer Fundamentals- Classification of Digital Computers & Applications of Computers
Personal Computers
Laptops
Network Computers
Mini and Microcomputers
PDAs
Workstations
Servers
Mainframes
Supercomputers
Used at home
Used in Education Institutions and Organizations as nodes
Can perform typical activities like documentation, playing games, surfing web to more complex activities like programming, design, DTP etc.
This document discusses green cloud computing from the perspective of data centers. It begins with background on green computing and cloud computing. It then discusses how green cloud computing can help balance energy usage in data centers through server virtualization, energy-aware consolidation, and locating data centers in developing regions. The document presents two case studies, one on a green data center in Senegal and another on benefits realized by a cell phone company in South Africa from implementing a private cloud. It concludes with sections on the Indian scenario for green IT standardization and a call to continue research efforts to maximize efficiency of green data centers.
This document discusses green computing or green IT, which aims to maximize energy efficiency during a product's lifetime through approaches like virtualization, power management, and proper recycling. It describes how virtualization allows combining multiple physical systems into virtual machines on a single powerful system to reduce power usage. Using LCD/LED displays and terminal servers connected to thin clients also decreases energy costs. Implementing power management at the administrative level allows automatically turning off hardware like monitors during inactivity to save energy. Data centers and their high energy usage are mentioned as areas green IT approaches could be applied through virtualization and power usage effectiveness methods.
Metering Energy Consumption in Data Centres - Chris Rudge and Rob ElderGoodCampus
The University of Leicester implemented a data centre infrastructure management (DCIM) solution to centralize and improve the efficiency of its high performance computing resources. The DCIM system monitors the physical infrastructure and IT systems to optimize efficiency, identify failures, and enable capacity planning. It has helped lower the data centre's power usage effectiveness to below 1.5 and strengthened the university's position as a leader in computational research by providing highly utilized centralized computing services that save approximately £140,000 per year in electricity costs compared to the old system.
The document discusses challenges with current IT asset and software management solutions, including inaccurate inventory, high manual effort, and limited auditability. It proposes a new solution called Modular Asset Service (MAS) that would provide minimal manual effort, low costs, better accuracy, integration with existing systems, compliance with privacy laws, and end-to-end lifecycle management for both physical PCs and installed software. The next steps outlined are to understand the customer's current environment and processes, requirements for a future solution, and plan a proof of concept or pilot of the MAS system.
This document discusses green computing, which refers to environmentally sustainable computing practices that minimize environmental impact. It covers the history and origins of green computing, approaches like green use, design, manufacturing and disposal. Specific strategies are outlined like using energy efficient CPUs, LCDs, power management settings, and recycling electronics. The advantages include energy savings and cost reductions over time, while disadvantages include high initial costs and performance sacrifices. The future of green computing is predicted to include more efficient and sustainable components as the norm.
Green computing:Experience report and best practicesraji rajeswari
This document discusses green computing, which aims to reduce the environmental impact of computing through more efficient use of computing resources and responsible disposal of electronic waste. It outlines the goals of green computing such as saving energy and reducing carbon emissions. Some key trends in green computing discussed are green use, design, manufacturing, and disposal of electronics. Best practices for green computing include using energy efficient electronics, putting devices in sleep mode when not in use, recycling electronics, and utilizing digital file sharing to reduce physical waste. The conclusion states that green computing will continue improving through ongoing efforts to make products and services more ecologically friendly.
Mainframe computers are large, reliable systems used by large corporations and governments to handle intensive workloads and preserve data permissions. Microcomputers like laptops and desktops are smaller and used by individuals for tasks like input, processing, storage and output. Minicomputers sit between mainframes and microcomputers in size and are portable devices used by mobile users for email, scheduling and web browsing.
This document discusses best practices for data centers, covering hardware performance, high availability (HA), capacity planning, and security. It addresses choosing the right hardware, benchmark testing, HA considerations like power and cooling, clustering, disaster recovery, capacity planning factors like current and future utilization, and security risks and mitigations like physical security, patching, and data backup. The goal is to provide guidance on optimizing data center operations and ensuring continuous service availability.
There are three main types of computers: analog, digital, and hybrid. Analog computers use continuous variables for mathematical operations, while digital computers use binary digits (0s and 1s) and are better suited for complex computations. Hybrid computers combine aspects of analog and digital systems. Computers can also be classified based on their size and capabilities, ranging from mainframe and minicomputers to microcomputers such as desktops, laptops, tablets, and wearable devices. Each type has distinct characteristics regarding processing power, mobility, and intended use.
Green computers (NIRAJ KUMAR FROM BIHAR)Niraj Kumar
Over the last few years, interest in “green computing” has motivated research into energy-saving techniques for enterprise systems, from network proxies and virtual machine migration to the return of thin clients.
When selecting computers, there are many other considerations than just energy, such as computational resources, and price.
The document discusses the need for optimizing data centers in a holistic, systems approach. It describes how a data center functions similarly to a computer chip with multiple optimized components. It proposes the development of a research data center facility that would contain the best current capabilities across cooling, power, networking, and software optimization. This facility would have extensive monitoring sensors to directly control and optimize operations based on real-time data.
This document provides an overview of different types of computers and their uses. It describes computers for individual use such as desktops, notebooks, tablets, handheld devices, and smartphones. It also outlines computers for organizations including network servers, mainframes, minicomputers, and supercomputers. Finally, it discusses the major impact of computers in society and how they are used in homes, education, small business, industry, government, and health care.
The document provides a five-step process for planning a new data center: 1) Determine design parameters like capacity, budget, growth plan, etc. 2) Develop a system concept by selecting a reference design. 3) Determine user requirements like preferences and constraints. 4) Generate a specification. 5) Generate a construction design. It emphasizes involving the right stakeholders, communicating at the right level of abstraction, and avoiding common mistakes like poor budgeting or an IT-focused rather than business-focused design. Following the standardized process can help complete projects on time and on budget by eliminating potential pitfalls.
This document outlines Saint Louis University's strategy for improving power management of IT equipment to reduce costs and environmental impact. Key points include:
1) SLU aims to standardize power-optimized default settings on all managed PCs and laptops through automated software and establish policies around exceptions and existing devices.
2) Potential savings are estimated from generational improvements in computer hardware and adopting lower-power modes like sleep versus screensavers.
3) The strategy also involves consolidating servers, enabling energy-efficient settings on printers and other electronics, and establishing institutional goals around student computer energy use.
Data Center Consultants: Providing Key Services for Data Center Projectsdpsir
Data center consultants are often brought into a project to ensure a successful outcome. Take a look at this presentation by Arnie W. Evdokimo, Chief Executive Officer of DP Air Corporation, a leading provider of data center design, build and maintenance services based in Phoenix, Arizona. For more information about Data Center Consultants, visit http://www.DPAir.com today.
The document discusses the four basic types of computers: super computers, mainframe computers, minicomputers, and microcomputers. Super computers consist of tens of thousands of processors able to perform billions of calculations per second. Mainframe computers are large, reliable machines used by large organizations for mission critical applications. Minicomputers are smaller than mainframes but larger than microcomputers, and are used as small or mid-range servers. Microcomputers, now commonly called personal computers, are designed for individual use and are the smallest type.
There are four main types of computers: supercomputers, mainframe computers, minicomputers, and microcomputers. Supercomputers are the most powerful and are used for specialized tasks like research and modeling. Mainframe computers are also powerful and used by large organizations to process and store large amounts of data. Minicomputers are smaller than mainframes and used by small businesses for department-specific tasks. Microcomputers are the smallest and most affordable, including desktops, laptops, tablets, and smartphones used by individuals.
The document defines and describes different types of computers based on their size, power, and intended uses. It discusses personal computers, workstations, minicomputers, mainframes, and supercomputers. It also covers different form factors for personal computers including desktop models, tower models, notebooks, subnotebooks, handhelds, palmtops, and PDAs. The key characteristics and components of all computers are also outlined.
College of Technology Pantnagar lecture- Jainendra Jainendra Kumar
The document discusses software engineering as a multi-disciplinary field that involves applying techniques, methodologies, and tools to produce high-quality software within budget and deadline constraints. It involves disciplines like computer science, mathematics, management and addresses the entire software development lifecycle from requirements to maintenance. The roles involved include software engineers, architects, analysts and managers. Key areas discussed are programming languages, databases, cloud computing, mobile app development and debugging tools.
IDC DCIM Webinar - How to Take Control of Chaos in a Lights-Out Data CenterSunbird DCIM
Led by Jennifer Cooke, Research Director, Datacenter Management, IDC, this webinar explores how to overcome the chaos and uncertainty of managing a lights-out data center. In this webinar, you’ll learn:
*Best practices for efficient capacity utilization.
*Tips to avoid downtime during a move to a lights-out data center.
*Benefits of using DCIM for remote monitoring and asset management processes.
Deskpod is a small, powerful, and energy efficient replacement for traditional desktop computers that takes up less space and uses significantly less electricity. It provides all the functionality of a regular computer while benefiting offices through lower electricity bills, efficient use of space, reduced maintenance costs, better data security, and easier data recovery compared to traditional desktop PCs. Due to these advantages, Deskpod has a high demand and replacing desktop PCs with Deskpod will help cut costs and make offices more efficient, ensuring Deskpod's success in the market.
Computer Fundamentals- Classification of Digital Computers &Applications of...Trinity Dwarka
Computer Fundamentals- Classification of Digital Computers & Applications of Computers
Personal Computers
Laptops
Network Computers
Mini and Microcomputers
PDAs
Workstations
Servers
Mainframes
Supercomputers
Used at home
Used in Education Institutions and Organizations as nodes
Can perform typical activities like documentation, playing games, surfing web to more complex activities like programming, design, DTP etc.
This document discusses green cloud computing from the perspective of data centers. It begins with background on green computing and cloud computing. It then discusses how green cloud computing can help balance energy usage in data centers through server virtualization, energy-aware consolidation, and locating data centers in developing regions. The document presents two case studies, one on a green data center in Senegal and another on benefits realized by a cell phone company in South Africa from implementing a private cloud. It concludes with sections on the Indian scenario for green IT standardization and a call to continue research efforts to maximize efficiency of green data centers.
This document discusses green computing or green IT, which aims to maximize energy efficiency during a product's lifetime through approaches like virtualization, power management, and proper recycling. It describes how virtualization allows combining multiple physical systems into virtual machines on a single powerful system to reduce power usage. Using LCD/LED displays and terminal servers connected to thin clients also decreases energy costs. Implementing power management at the administrative level allows automatically turning off hardware like monitors during inactivity to save energy. Data centers and their high energy usage are mentioned as areas green IT approaches could be applied through virtualization and power usage effectiveness methods.
Metering Energy Consumption in Data Centres - Chris Rudge and Rob ElderGoodCampus
The University of Leicester implemented a data centre infrastructure management (DCIM) solution to centralize and improve the efficiency of its high performance computing resources. The DCIM system monitors the physical infrastructure and IT systems to optimize efficiency, identify failures, and enable capacity planning. It has helped lower the data centre's power usage effectiveness to below 1.5 and strengthened the university's position as a leader in computational research by providing highly utilized centralized computing services that save approximately £140,000 per year in electricity costs compared to the old system.
The document discusses challenges with current IT asset and software management solutions, including inaccurate inventory, high manual effort, and limited auditability. It proposes a new solution called Modular Asset Service (MAS) that would provide minimal manual effort, low costs, better accuracy, integration with existing systems, compliance with privacy laws, and end-to-end lifecycle management for both physical PCs and installed software. The next steps outlined are to understand the customer's current environment and processes, requirements for a future solution, and plan a proof of concept or pilot of the MAS system.
This document discusses green computing, which refers to environmentally sustainable computing practices that minimize environmental impact. It covers the history and origins of green computing, approaches like green use, design, manufacturing and disposal. Specific strategies are outlined like using energy efficient CPUs, LCDs, power management settings, and recycling electronics. The advantages include energy savings and cost reductions over time, while disadvantages include high initial costs and performance sacrifices. The future of green computing is predicted to include more efficient and sustainable components as the norm.
Green computing:Experience report and best practicesraji rajeswari
This document discusses green computing, which aims to reduce the environmental impact of computing through more efficient use of computing resources and responsible disposal of electronic waste. It outlines the goals of green computing such as saving energy and reducing carbon emissions. Some key trends in green computing discussed are green use, design, manufacturing, and disposal of electronics. Best practices for green computing include using energy efficient electronics, putting devices in sleep mode when not in use, recycling electronics, and utilizing digital file sharing to reduce physical waste. The conclusion states that green computing will continue improving through ongoing efforts to make products and services more ecologically friendly.
DEFINITION
green computing
Posted by: Margaret Rouse
WhatIs.com
Green computing, also called green technology, is the environmentally responsible use of computers and related resources.
Green computing is the environmentally responsible and eco-friendly use of computers and their resources. In broader terms, it is also defined as the study of designing, engineering, manufacturing, using and disposing of computing devices in a way that reduces their environmental impact.
Many IT manufacturers and vendors are continuously investing in designing energy-efficient computing devices, reducing the use of dangerous materials and encouraging the recyclability of digital devices. Green computing practices came into prominence in 1992, when the Environmental Protection Agency (EPA) launched the Energy Star program.
Green computing involves designing, manufacturing, and disposing of computers and electronics in an environmentally friendly way. It aims to reduce the environmental impact of IT through more efficient use of resources and less waste. Key aspects of green computing include green design, green manufacturing, green use, and green disposal of electronics. Adopting green computing practices can help conserve energy and resources while reducing environmental pollution.
Information and communication technology accounts for about 2% of global carbon dioxide emissions. Computers contain about 1.8 tonnes of materials that are difficult to recycle. Energy usage by computers can be reduced by turning off idle devices, using lower power hardware like Intel Atom processors, server virtualization in data centers, hardware as a service models, energy efficient coding that can reduce usage by 30%, switching from LCD to LED or OLED displays, and enabling remote work and communication. Advanced Power Interface standards and software allow systems to automatically shut down components or go into low power hibernation modes to conserve energy. Old computer equipment should be reused, refurbished, or properly recycled to reduce environmental impacts.
This document discusses green computing, which refers to environmentally sustainable and responsible computing practices. It aims to minimize computing's environmental impact through more efficient energy usage, reducing pollution from manufacturing and disposal, and promoting reuse and recycling of electronic equipment. Green computing strategies addressed include power management to reduce energy waste, using less hazardous materials and more energy efficient components in manufacturing, and proper disposal like donating, refurbishing, or recycling electronic components. The goal is to prolong equipment lifetimes while reducing environmental harm.
This document discusses a Green IT project that aims to implement environmentally friendly practices in data centers and for end-user computing. Some key points covered include:
- Green IT refers to making IT organizations more environmentally sustainable through practices like improving energy efficiency.
- Drivers for Green IT include rising energy costs, concerns about global warming, and increased legislation around emissions and toxic materials.
- Potential areas for green practices are data centers and end-user devices/computing. Issues in data centers include high energy use for servers and cooling.
- Associated green practices could include improving cooling methods, virtualizing servers, altering purchasing, and proper disposal/recycling. Benefits include reduced costs and emissions
Green computing, also known as green IT, aims to reduce the environmental impact of computing equipment and practices. It focuses on energy efficiency to reduce power consumption and global warming by using less hazardous materials and maximizing sustainability. Factors like unnecessary printing and the large energy needs of monitors and CPUs contribute to the environmental impact of computing. Green computing emerged in the early 1990s and involves approaches like green design, manufacturing, use and disposal of equipment to lessen pollution and toxicity through various methods such as solar computing, virtualization and recycling.
Green computing aims to reduce the environmental impact of computing through more efficient use of computing resources and environmentally friendly design and disposal of computer technologies. It seeks to minimize energy consumption and promote renewable energy sources, reduce paper usage, and ensure easy recycling of electronic equipment. The goals of green computing are to reduce hazardous materials usage, maximize energy efficiency over the lifetime of products, and promote recyclability. Recent implementations of green computing principles include search engines like Blackle that reduce energy usage and very low power computers like the Zonbu and Fit PC. The future of green computing is expected to see more eco-friendly components and emphasis on energy savings across enterprises.
Green computing aims to reduce the environmental impact of computing through more efficient use of computing resources and disposal of electronic waste. For businesses, green computing can help lower operating costs by reducing energy consumption from data centers and cooling needs. Problems include rising energy costs to power servers and keep data centers cool. Solutions adopted by large companies include virtualization, power management software, and using renewable energy. While upfront costs exist, green computing provides benefits like cost savings, improved corporate image, and aligning with social responsibility. Most organizations should implement green computing strategies to support sustainability and reduce costs over time.
Achieving more with less - InfrastructureGethNichols
Notes from the Autumn 2010 round of Primary Seminars from RM. This session looks at the cost savings that are possible by using ICT, from monitoring a school's utility bills to adopting more sustainable network products, and lots more in between.
This document discusses green computing and how to make computing more environmentally friendly. It defines green computing as using computers in an environmentally sustainable way by reducing hazardous materials and maximizing energy efficiency. Some key ways to achieve green computing mentioned are using power management and energy efficient hardware, recycling electronics properly, and utilizing more sustainable power sources like solar energy. The document provides tips for green computing practices like turning devices off when not in use, using energy efficient monitors, and printing only when necessary.
This document provides an overview of green computing. It defines green computing as the study and practice of designing, manufacturing, using, and disposing of computers and associated systems efficiently and effectively while minimizing environmental impact. The document then discusses reasons for adopting green computing such as growing environmental awareness and regulations. It outlines approaches to green computing like virtualization, power management, and material recycling. It also provides examples of green computing initiatives from companies like Apple, Wipro, and Google and recommends steps organizations can take to implement green computing practices.
Green computing aims to reduce the environmental impact of computers and their use. It promotes energy efficient and environmentally friendly computing practices like using energy efficient CPUs and servers, implementing power management features, and properly disposing of or recycling electronic waste. Common components in computers like lead, mercury, and cadmium can be toxic, so green manufacturing seeks to reduce pollution and use of hazardous materials. Adopting practices like using energy star certified devices, enabling power saving modes, recycling electronics, and opting for thin clients can help make computing more environmentally friendly.
Green computing presentation 1 19 cab416 oorja rajoriaOorjaRajoria
Green computing aims to reduce the environmental impact of computing through more sustainable design, manufacture, and disposal techniques. This includes making computing devices more energy efficient, using renewable materials, and ensuring electronics can be safely recycled. Researchers are developing new green computing concepts like modular, upgradable devices made from recycled materials that can be easily disassembled at end of life. While green computing may be more expensive initially, it provides long term cost savings and environmental benefits by reducing energy use and waste.
This document discusses green computing and provides information on various related topics. It begins by introducing the group members and stating that green computing involves designing, manufacturing, using, disposing of and recycling computers and resources in an environmentally friendly way. It then discusses aims of green IT like reducing hazardous materials and promoting recycling. The document also covers topics like e-waste, energy star, impacts of energy star, energy saved in sleep mode, the 1997 Kyoto protocol, carbon emissions, how much electricity computers use, average power consumption, applications and advantages of e-paper, cloud computing characteristics, cloud storage advantages and disadvantages, using alternative eco-friendly materials to make computers, green IT barriers and benefits, and how to promote green IT.
This document discusses emerging green technologies and their benefits. It covers cloud computing which provides computing services over the internet and allows for increased efficiencies and resource sharing. Virtualization divides physical resources into virtual machines, allowing server consolidation and more efficient use of existing resources. Green data centers use higher performance yet more energy efficient servers with internal cooling and smart sensors. Adopting green IT practices such as these can help reduce costs and environmental impact while attracting customers interested in corporate social responsibility.
Green computing aims to reduce the environmental impact of computing through more efficient use of computing resources and proper disposal of electronic waste. It began in 1992 with the Energy Star program which certified energy efficient electronics. Green computing approaches include virtualization, power management, efficient power supplies, storage optimization, efficient graphics cards, LED displays, recycling electronics, and telecommuting. Recent implementations include the black search engine Blackle, low power Zonbu and Fit PC computers, and thin clients like Sun Ray. The goals are to minimize hazards, maximize energy efficiency and recyclability. Advantages include energy savings, cost savings, and lower emissions over time, while disadvantages include high initial costs and uncertainty about performance impacts.
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Mechanical Engineering Training
Civil Engineering training
Facilities :
Well Equipped AC Labs
Individual System to Each Student
Study Material prepared by Industry Experts
Training Sessions English/Hindi Combined
Free Revision Classes
Bestech Solutions provides training and development solutions to bridge the gap between campus and career. Their training division conducts research to understand industry needs, develops customized courses, provides career counseling and guidance, and assists with job placement. Bestech also has a development division that creates software solutions like hospital management, school management, online examination, and e-commerce systems to make work easier for clients. They aim to develop long-term relationships with clients and provide cost-effective solutions with integrity and innovation.
What is Android?
Android is an open source and Linux-based Operating System for mobile devices such as smartphones
and tablet computers. Android was developed by the Open Handset Alliance, led by Google, and other
companies.
Or
Android is a software package and linux based
operating system for mobile devices such as
tablet computers and smartphones.
It is developed by Google and later the OHA
(Open Handset Alliance). Java language is mainly
used to write the android code even though other
languages can be used.
BESTECH SOLUTIONS in Allahabad has emerged as one of the best Training Centers. We are training a large number of Technical students so that they can easily step in the corporate world.
This document outlines the goals and requirements for a project to securely store and access organizational data over time. The project aims to 1) always keep data updated, 2) improve access to information, 3) reduce human error, 4) optimize time and resource use, and 5) enhance security and reliability. It will use Java for the front end, Oracle11g for the back end, and NetBeans 8.0 for resources. Modules will include staff management, student management, salary generation, and fee collection.
Teachers play an important role in students' lives by guiding and inspiring them which helps students become who they are. The writer expresses gratitude to their teacher for helping them when they were lost and shaping them into the people they are now. The writer wishes the teacher a happy Teachers Day.
Bestech Solutions was started by highly qualified professionals who had spent more than a decade in the industries and understood the corporate requirement and come up with Skills Development Solutions to bridge the gap from Campus to Corporate while creating Leaders for tomorrow. Our Training and Development division continuously work on researching upon the recent trends and requirements of the Industry. This helps us to train students and to place themselves in their dream organization while our effectively learning & delivery methods.
We provide a platform to accelerate Engineering/MBA student’s career by showing a path where most of us are competing for optimal job opportunity.
BESTECH SOLUTIONS is a fast growing Training & Development Organization. We provide a Web Designing & Web Development Solution that creates your brand identity and makes your work easier. We provide customized services i.e. according to client business needs. We are specialized in Static & Dynamic Website Designing (Responsive). In software we provide software for Hospital Management, Online Examination, Real Estate Management, School Management Software, ERP and many others.
At BESTECH SOLUTIONS, we not only develop products but we DEVELOP RELATIONSHIPS.
Bestech Solutions was started by highly qualified professionals who had spent more than a decade in the industries and understood the corporate requirement and come up with Skills Development Solutions to bridge the gap from Campus to Corporate while creating Leaders for tomorrow. Our Training and Development division continuously work on researching upon the recent trends and requirements of the Industry. This helps us to train students and to place themselves in their dream organization while our effectively learning & delivery methods.
We provide a platform to accelerate Engineering/MBA student’s career by showing a path where most of us are competing for optimal job opportunity.
BESTECH SOLUTIONS is a fast growing Training & Development Organization. We provide a Web Designing & Web Development Solution that creates your brand identity and makes your work easier. We provide customized services i.e. according to client business needs. We are specialized in Static & Dynamic Website Designing (Responsive). In software we provide software for Hospital Management, Online Examination, Real Estate Management, School Management Software, ERP and many others.
At BESTECH SOLUTIONS, we not only develop products but we DEVELOP RELATIONSHIPS.
Bestech Solutions was started by highly qualified professionals who had spent more than a decade in the industries and understood the corporate requirement and come up with Skills Development Solutions to bridge the gap from Campus to Corporate while creating Leaders for tomorrow. Our Training and Development division continuously work on researching upon the recent trends and requirements of the Industry. This helps us to train students and to place themselves in their dream organization while our effectively learning & delivery methods.
We provide a platform to accelerate Engineering/MBA student’s career by showing a path where most of us are competing for optimal job opportunity.
BESTECH SOLUTIONS is a fast growing Training & Development Organization. We provide a Web Designing & Web Development Solution that creates your brand identity and makes your work easier. We provide customized services i.e. according to client business needs. We are specialized in Static & Dynamic Website Designing (Responsive). In software we provide software for Hospital Management, Online Examination, Real Estate Management, School Management Software, ERP and many others.
At BESTECH SOLUTIONS, we not only develop products but we DEVELOP RELATIONSHIPS.
BESTECH SOLUTIONS is dealing in Training students to enhance their employability skills. We are also into Developing Website, Customized Software. We provide Bulk SMS services, both Promotional & Transactional.
AUTOCAD is a designing & Detailing Software. It is widely used in the industry.
Then comes the advance softwares specific branch wise.
Like SOLIDWORKS & CATIA for Mechanical Engineers
Staad Pro For Civil Engineers
This recruitment notice is seeking a Business Development Executive located in Allahabad, India. The position requires a graduate or post-graduate male candidate with either no experience or a minimum of 6 months experience in the education industry. Strong communication, personality, convincing, and positive attitude skills are necessary. Interested candidates should apply on February 21st or 28th, 2017 by contacting the numbers provided for an opportunity to build a career in marketing.
We are Hiring !!!! Recruitment Process to be conducted on 21st February 2017 and 28th February 2017 for Trainer Profile. Call 8948477111 / 8354998993 For more information.
An IT company in Allahabad is hiring 10 Technical Support Executives, with night shifts from 9 PM to 6 AM for male candidates and day shifts from 2 PM to 8 PM for female candidates. The job involves providing technical support and customer service to clients in the US and UK regarding routers, computers, and laptops, as well as performing pre-sales and after-sales support through phone and upselling products. Applicants should have strong communication, customer service, sales, and technical skills.
C is a general-purpose programming language that has the following key features: portability, modularity, flexibility, and extendability. A C program consists of preprocessing directives, global declarations, the main function, and optional subprograms like functions. The smallest units of a C program are tokens, which include keywords, identifiers, constants, strings, and operators. The program uses control statements like if/else, switch, for loops, while loops, and do/while loops. It can also define complex data types like arrays, strings, structures, and pointers to store and manipulate data. Functions are used to divide a large program into smaller reusable units. Memory management is done using functions like malloc(), calloc(), free(),
Professionals trained in embedded systems technologies are a rare commodity in the recruitment marketplace. Considering the vast scope of the field, ranging from telecom to consumer electronics to aerospace, the demand for embedded systems engineers for product development and application will continue to grow in the years to come.
Most of the electronic devices around us contain a processor with some embedded software. Unlike desktop computers, this can be programmed to do any general-purpose task; these embedded systems do highly focused and specific jobs
This presentation was provided by Steph Pollock of The American Psychological Association’s Journals Program, and Damita Snow, of The American Society of Civil Engineers (ASCE), for the initial session of NISO's 2024 Training Series "DEIA in the Scholarly Landscape." Session One: 'Setting Expectations: a DEIA Primer,' was held June 6, 2024.
বাংলাদেশের অর্থনৈতিক সমীক্ষা ২০২৪ [Bangladesh Economic Review 2024 Bangla.pdf] কম্পিউটার , ট্যাব ও স্মার্ট ফোন ভার্সন সহ সম্পূর্ণ বাংলা ই-বুক বা pdf বই " সুচিপত্র ...বুকমার্ক মেনু 🔖 ও হাইপার লিংক মেনু 📝👆 যুক্ত ..
আমাদের সবার জন্য খুব খুব গুরুত্বপূর্ণ একটি বই ..বিসিএস, ব্যাংক, ইউনিভার্সিটি ভর্তি ও যে কোন প্রতিযোগিতা মূলক পরীক্ষার জন্য এর খুব ইম্পরট্যান্ট একটি বিষয় ...তাছাড়া বাংলাদেশের সাম্প্রতিক যে কোন ডাটা বা তথ্য এই বইতে পাবেন ...
তাই একজন নাগরিক হিসাবে এই তথ্য গুলো আপনার জানা প্রয়োজন ...।
বিসিএস ও ব্যাংক এর লিখিত পরীক্ষা ...+এছাড়া মাধ্যমিক ও উচ্চমাধ্যমিকের স্টুডেন্টদের জন্য অনেক কাজে আসবে ...
June 3, 2024 Anti-Semitism Letter Sent to MIT President Kornbluth and MIT Cor...Levi Shapiro
Letter from the Congress of the United States regarding Anti-Semitism sent June 3rd to MIT President Sally Kornbluth, MIT Corp Chair, Mark Gorenberg
Dear Dr. Kornbluth and Mr. Gorenberg,
The US House of Representatives is deeply concerned by ongoing and pervasive acts of antisemitic
harassment and intimidation at the Massachusetts Institute of Technology (MIT). Failing to act decisively to ensure a safe learning environment for all students would be a grave dereliction of your responsibilities as President of MIT and Chair of the MIT Corporation.
This Congress will not stand idly by and allow an environment hostile to Jewish students to persist. The House believes that your institution is in violation of Title VI of the Civil Rights Act, and the inability or
unwillingness to rectify this violation through action requires accountability.
Postsecondary education is a unique opportunity for students to learn and have their ideas and beliefs challenged. However, universities receiving hundreds of millions of federal funds annually have denied
students that opportunity and have been hijacked to become venues for the promotion of terrorism, antisemitic harassment and intimidation, unlawful encampments, and in some cases, assaults and riots.
The House of Representatives will not countenance the use of federal funds to indoctrinate students into hateful, antisemitic, anti-American supporters of terrorism. Investigations into campus antisemitism by the Committee on Education and the Workforce and the Committee on Ways and Means have been expanded into a Congress-wide probe across all relevant jurisdictions to address this national crisis. The undersigned Committees will conduct oversight into the use of federal funds at MIT and its learning environment under authorities granted to each Committee.
• The Committee on Education and the Workforce has been investigating your institution since December 7, 2023. The Committee has broad jurisdiction over postsecondary education, including its compliance with Title VI of the Civil Rights Act, campus safety concerns over disruptions to the learning environment, and the awarding of federal student aid under the Higher Education Act.
• The Committee on Oversight and Accountability is investigating the sources of funding and other support flowing to groups espousing pro-Hamas propaganda and engaged in antisemitic harassment and intimidation of students. The Committee on Oversight and Accountability is the principal oversight committee of the US House of Representatives and has broad authority to investigate “any matter” at “any time” under House Rule X.
• The Committee on Ways and Means has been investigating several universities since November 15, 2023, when the Committee held a hearing entitled From Ivory Towers to Dark Corners: Investigating the Nexus Between Antisemitism, Tax-Exempt Universities, and Terror Financing. The Committee followed the hearing with letters to those institutions on January 10, 202
Executive Directors Chat Leveraging AI for Diversity, Equity, and InclusionTechSoup
Let’s explore the intersection of technology and equity in the final session of our DEI series. Discover how AI tools, like ChatGPT, can be used to support and enhance your nonprofit's DEI initiatives. Participants will gain insights into practical AI applications and get tips for leveraging technology to advance their DEI goals.
MATATAG CURRICULUM: ASSESSING THE READINESS OF ELEM. PUBLIC SCHOOL TEACHERS I...NelTorrente
In this research, it concludes that while the readiness of teachers in Caloocan City to implement the MATATAG Curriculum is generally positive, targeted efforts in professional development, resource distribution, support networks, and comprehensive preparation can address the existing gaps and ensure successful curriculum implementation.
A Strategic Approach: GenAI in EducationPeter Windle
Artificial Intelligence (AI) technologies such as Generative AI, Image Generators and Large Language Models have had a dramatic impact on teaching, learning and assessment over the past 18 months. The most immediate threat AI posed was to Academic Integrity with Higher Education Institutes (HEIs) focusing their efforts on combating the use of GenAI in assessment. Guidelines were developed for staff and students, policies put in place too. Innovative educators have forged paths in the use of Generative AI for teaching, learning and assessments leading to pockets of transformation springing up across HEIs, often with little or no top-down guidance, support or direction.
This Gasta posits a strategic approach to integrating AI into HEIs to prepare staff, students and the curriculum for an evolving world and workplace. We will highlight the advantages of working with these technologies beyond the realm of teaching, learning and assessment by considering prompt engineering skills, industry impact, curriculum changes, and the need for staff upskilling. In contrast, not engaging strategically with Generative AI poses risks, including falling behind peers, missed opportunities and failing to ensure our graduates remain employable. The rapid evolution of AI technologies necessitates a proactive and strategic approach if we are to remain relevant.
How to Add Chatter in the odoo 17 ERP ModuleCeline George
In Odoo, the chatter is like a chat tool that helps you work together on records. You can leave notes and track things, making it easier to talk with your team and partners. Inside chatter, all communication history, activity, and changes will be displayed.
Biological screening of herbal drugs: Introduction and Need for
Phyto-Pharmacological Screening, New Strategies for evaluating
Natural Products, In vitro evaluation techniques for Antioxidants, Antimicrobial and Anticancer drugs. In vivo evaluation techniques
for Anti-inflammatory, Antiulcer, Anticancer, Wound healing, Antidiabetic, Hepatoprotective, Cardio protective, Diuretics and
Antifertility, Toxicity studies as per OECD guidelines
1. “A Person who cares about the Earth &
IT, will Go Green with Green IT”
2. Green IT
• Also called green computing it describes the
study and the using of computer resources in an
efficient way.
– Energy efficiency
– Proper recycling of equipment
– Manufacturing
3. Efficiency
• Reducing the energy consumption of computers
and other information systems
– Energy consumption
– Emissions
4. Proper Recycling of Equipment
• Refurbishing and reusing old computers as well
as properly disposing and recycling unwanted
computers and other equipment.
– E-waste
5. Design and Manufacturing
• Manufacturing computers and components with
minimal effect on the environment.
• Designing energy-efficient and environmentally
sound components, computers, servers, cooling
equipment, and data centers
6. Why Green IT?
• Save Money
• Save energy
• Save in cooling
• Reduce long term hardware spend
• Reduce carbon emissions
• Save space in server room and desktop
• Avoid infrastructure upgrades
7. Who can do Green IT?
• Anyone in control of a computer/s and related
hardware
• System Administrators
• Equipment manufacturers
• Computer assemblers
• IT sales personnel
• IT project contract authors
• Project Managers
8. Can Anyone apply Green IT?
• YES
• Turn on Screen and Hard disk power
management
• Turn on Sleep and / or Hibernation management
• Shutdown computers at then end of each day
• This saves approximately 60% on power
11. What is Cloud Computing?
• Cloud computing is a model for enabling
convenient, on-demand network access to a
shared pool of configurable computing
resources like networks, servers, storage,
applications, and services.
12.
13. What is Green Computing?
• Green computing is the environmentally
responsible and eco-friendly use of computers
and their resources. In broader terms, it is also
defined as the study of designing, manufacturing
or engineering, using and disposing of
computing devices in a way that reduces their
environmental impact.
• Green Cloud computing is envisioned to achieve
not only efficient processing and utilization of
computing infrastructure, but also minimize
energy consumption.
14. Cloud Advantages
• Reduce spending on technology infrastructure. Maintain easy
access to information with minimal upfront spending. Pay as you go
based on demand.
• Globalize your workforce on the cheap. People worldwide can
access the cloud, provided they have an Internet connection.
• Streamline processes. Get more work done in less time with less
people.
• Reduce capital costs. There’s no need to spend big money on
hardware, software or licensing fees.
• Improve accessibility. You have access anytime, anywhere, making
your life so much easier!
• Minimize licensing new software. Stretch and grow without the need
to buy expensive software licenses or programs.
• Improve flexibility. You can change direction without serious
financial issues at stake.
15. Green Choices
• Turn on Power Management
• Set screensavers to None
• Buy Energy Star rated computers
• Use laptops instead of desktops as they typically
use less power
• Turn off peripherals when not in use
• Turn off power at power point to stop phantom /
standby loads
• Close unused applications
• Turn off monitor when not in use
• Measure your power consumption
16. Where is IT saving
environment now?
• Electronic banking, electronic receipts, electronic
pay slips, Intranets, Wikis, electronic form
handling, email instead of post, email instead of
fax, duplex printing, saving us from repetitive
tasks, decision support systems, electronic
commerce, instant messaging, electronic
magazines & newspapers, online services such
as email, document handling and computer
maintenance.
17. Conclusions
• Green IT
– IT is a major power consumer
– A significant percentage of the power is
wasted
– Opportunities exist to dramatically improve IT
energy efficiency
– IT can be a very beneficial part of the Green
movement
18. For any Queries Contact:
BESTECH SOLUTIONS
8948477111
info@bestechsolutions.com
bestechsolutions123@gmail.com
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www.facebook.com/bestechsol
8948477111
www.bestechsolutions.com