This document discusses the benefits of modular data center design and proposes a common language for specifying modular architectures. It outlines desired characteristics like flexibility, scalability, and cost effectiveness. Standardization and scalability are key goals of modularity. The document defines modular architecture and discusses how modularity can be implemented at different levels and through different linkages between subsystems. Benefits include lower costs, simpler expansion, and pre-characterized performance. Challenges include vendor lock-in and site compatibility. Future trends may include increased packaging of subsystems and the emergence of industry standards.
Asset Management - what are some of your top priorties?Schneider Electric
Asset Managment...how to avoid costly impact of downtime; maintain multiple tools, devices and protocols; manage the risk of working remotely with the Foxboro Evo system.
As steel operations rely heavily on low-voltage motors, the introduction of new technologies which target motor performance have a direct impact on energy, commissioning and maintenance costs. Networking allows for easy monitoring of critical data of
each motor or load connected to the intelligent motor control center (iMCC), enabling precise process control. However, the iMCC concept isn’t a new technology. Networked protection relays and speed drivers are mature technologies with consolidated acceptance. Explore new trends for iMCCs including new Ethernet technologies, Web, wireless, biometric devices, and new technologies for metering and motor branch circuit protection. Copyright AIST Reprinted with Permission
There are many factors in the data center that are driving the new data center design considerations. This slideshare discusses several of the trends in the data center and covers several solutions to implement.
Power Protection for Digital Medical Imaging and Diagnostic EquipmentSchneider Electric
Medical imaging and diagnostic equipment (MIDE) is
increasingly being networked to Picture Archiving and
Communications Systems (PACS), Radiology Information
Systems (RIS), Hospital Information Systems
(HIS), and getting connected to the hospital intranet as
well as the Internet. Failing to implement the necessary
physical infrastructure can result in unexpected
downtime, and safety and compliance issues, which
translates into lost revenue and exposure to expensive
litigations, negatively affecting the bottom line. This
paper explains how to plan for physical infrastructure
when deploying medical imaging and diagnostic
equipment, with emphasis on power and cooling.
The Schneider Electric underground self-healing solution can restore power to healthy areas of a distribution network in under 30 seconds. Our self-healing innovation improves re-energisation time and availability by independently isolating faults and swiftly restoring service to those areas of the grid directly unaffected. This decentralized solution is based on an off-the-shelf product, the Schneider Electric Easergy T200 substation control unit which establishes peer-to-peer communication over an IP network.
Get with the system - Rogerio Martins, Schneider Electric disucsses the advantages of modern distributed control systems in coal handling preparation plants.
Electric utilities are preparing for the multitude of challenges facing the industry — limited generation to supply increasing energy demand, growing regulatory and customer pressure for increased reliability and reduced carbon emissions, adoption of distributed renewable generation and energy storage, and the inevitability of both an aging workforce and infrastructure.
In a rather short period of time, these challenges have converged, and in doing so, have exposed the need for a comprehensive distribution network monitoring, analysis, and control system.
Utilities that are proactive — building business cases and deploying scalable solutions now — will be best prepared to meet the challenges of today and the future. To assist the industry in achieving their strategic Smart Grid goals, Schneider Electric proudly offers its Advanced Distribution Management
System (ADMS).
Asset Management - what are some of your top priorties?Schneider Electric
Asset Managment...how to avoid costly impact of downtime; maintain multiple tools, devices and protocols; manage the risk of working remotely with the Foxboro Evo system.
As steel operations rely heavily on low-voltage motors, the introduction of new technologies which target motor performance have a direct impact on energy, commissioning and maintenance costs. Networking allows for easy monitoring of critical data of
each motor or load connected to the intelligent motor control center (iMCC), enabling precise process control. However, the iMCC concept isn’t a new technology. Networked protection relays and speed drivers are mature technologies with consolidated acceptance. Explore new trends for iMCCs including new Ethernet technologies, Web, wireless, biometric devices, and new technologies for metering and motor branch circuit protection. Copyright AIST Reprinted with Permission
There are many factors in the data center that are driving the new data center design considerations. This slideshare discusses several of the trends in the data center and covers several solutions to implement.
Power Protection for Digital Medical Imaging and Diagnostic EquipmentSchneider Electric
Medical imaging and diagnostic equipment (MIDE) is
increasingly being networked to Picture Archiving and
Communications Systems (PACS), Radiology Information
Systems (RIS), Hospital Information Systems
(HIS), and getting connected to the hospital intranet as
well as the Internet. Failing to implement the necessary
physical infrastructure can result in unexpected
downtime, and safety and compliance issues, which
translates into lost revenue and exposure to expensive
litigations, negatively affecting the bottom line. This
paper explains how to plan for physical infrastructure
when deploying medical imaging and diagnostic
equipment, with emphasis on power and cooling.
The Schneider Electric underground self-healing solution can restore power to healthy areas of a distribution network in under 30 seconds. Our self-healing innovation improves re-energisation time and availability by independently isolating faults and swiftly restoring service to those areas of the grid directly unaffected. This decentralized solution is based on an off-the-shelf product, the Schneider Electric Easergy T200 substation control unit which establishes peer-to-peer communication over an IP network.
Get with the system - Rogerio Martins, Schneider Electric disucsses the advantages of modern distributed control systems in coal handling preparation plants.
Electric utilities are preparing for the multitude of challenges facing the industry — limited generation to supply increasing energy demand, growing regulatory and customer pressure for increased reliability and reduced carbon emissions, adoption of distributed renewable generation and energy storage, and the inevitability of both an aging workforce and infrastructure.
In a rather short period of time, these challenges have converged, and in doing so, have exposed the need for a comprehensive distribution network monitoring, analysis, and control system.
Utilities that are proactive — building business cases and deploying scalable solutions now — will be best prepared to meet the challenges of today and the future. To assist the industry in achieving their strategic Smart Grid goals, Schneider Electric proudly offers its Advanced Distribution Management
System (ADMS).
Virtualization and Cloud Computing: Optimized Power, Cooling, and Management ...Schneider Electric
IT virtualization, the engine behind cloud computing, can have significant consequences on the data center physical infrastructure (DCPI). Higher power densities that often result can challenge the cooling capabilities of an existing system. Reduced overall energy consumption that typically results from physical server consolidation may actually worsen the data center’s power usage effectiveness (PUE). Dynamic loads that vary in time and location may heighten the risk of downtime if rack-level power and cooling health are not understood and considered. Finally, the fault-tolerant nature of a highly virtualized environment could raise questions about the level of redundancy required in the physical infrastructure. These particular effects of virtualization are discussed and possible solutions or methods for dealing with them are offered.
A key part of implementing Volt-VAR control and optimization is to identify the benefits that can be attributed to VVO. The major challenge is to separate the impacts of VVO (i.e. the VVO benefits) from the impacts of factors not related to VVO, such as changing weather conditions, random customer behavior and routine operational changes (planned switching). Utilities on the panel have performed VVO measurement and verification using different methods. Each presenter will describe how the method works, data requirements, strengths and weaknesses of the approach and results. The session also will summarize work by the IEEE Volt-VAR task force to develop IEEE Guideline P1885 M&V of VVO projects for electric distribution utilities.
Dtech 2015 the distribution management system network modelSchneider Electric
The presentation will illustrate the methodology deployed to achieve an accurate Distribution Network Model at Duke Energy Carolinas. It will also dive in to the impact on various stakeholders in the organization, as well as the change management process that drives the successful implementation of the model.
Maximize Your Data Center for Virtualization InitiativesSchneider Electric
Presentation focuses on the impact virtualization initiatives have on the data center and more importantly the critical
physical infrastructure supporting the data center. Virtualization is an IT strategy that can easily and quickly impact, with potential negative consequences, the reliability and availability of the data center. Understand the effects and some considerations in the implementation of virtualization.
Basic Concepts for an Integrated Steel Process Control SystemSchneider Electric
For the past few years, the market was preoccupied with discussions about terminology such as: distributed control systems (DCS), programmable logic controllers (PLC), and the “newcomers” hybrid control systems (HCS) and programmable automation controllers (PAC), and how each should be applied to steel and metals processing applications. Steel manufacturing is an industry that requires specific approaches for control systems; it mixes process, machines, discrete control, several motors, high-availability systems and involves massive amounts of variables and architectures that requires flexible topologies. Better understand these technologies, myths and facts, and learn the real needs and trends for control systems in steel and metals industries, regardless of labels and acronyms. Copyright AIST Reprinted with Permission
Effect on Substation Engineering Costs of IEC61850 & System Configuration ToolsSchneider Electric
Change management, software configuration training, and human error all impact the cost associated with substation automation engineering. Object-oriented engineering approaches as defined in the IEC 61850 standard represent significant cost savings when compared to traditional methods using hardwire and Distributed Network Protocol (DNP3). New multivendor system configuration tools are described that further reduce substation automation engineering costs.
ADMS is a comprehensive network management solution with monitoring, analysis, control, optimization, planning and training tools sharing a common infrastructure, data model, and user experience.
Presented at the 2013 Society of Mining, Metallurgy and Exploration Annual Meeting (SME 2013). Severe weather conditions can affect several aspects of the mining operations including blasting, planning and scheduling, people safety, and flooding. An advanced weather system should deliver real-time critical weather information able to support mining operations and people safety through weather forecast, lightning information, precipitation forecasts, and alerts.
The combination of Cisco's UCS Manager and Schneider Electric's DCIM solution provides Cisco UCS customers with an opportunity to bridge the gap between IT and Facilities, offer transparency across the two silos, and positively impact the rest of the organization – both in terms of efficiency, uptime and capex/opex costs. This is achieved by optimising the existing physical infrastructure capacities, thus reducing overprovisioning and improving the balance between supply and demand, resulting in continual availability and optimal energy efficiency.
The new Modicon M580 is the first ePAC with Ethernet built right into its core. M580 is the controller of choice for Schneider Electric’s collaborative and integrated automation architecture, PlantStruxure.
[Case study] Dakota Electric Association: Solutions to streamline GIS, design...Schneider Electric
Applications:
Integration of GIS-based processes makes existing circuits and proposed circuits
available in the same system so operations staff can work in parallel with the designers
rather than in succession.
Customer benefits
• Model, design and manage critical infrastructure
• Highly configurable
• Easily adapted for multiple uses
• Proactively identify needed repairs and replacements well in advance
More and more, as utilities face decreasing margin between system load and system capacity, they are in need of innovative smart grid solutions that can help them effectively disperse and store energy and manage load to meet resource requirements. Many are incorporating Distributed Energy Resources (DERs) to help fill the gap while, at the same time, meet requirements for reduced emissions and energy independence; these utilities will require the capability to accurately forecast and control DER contribution to the network, to assure security and grid reliability.
Advanced smart grid software designed to support DER management and optimize grid operations and planning works with a real-time network model, based on an accurate geodatabase and incorporating data from operational systems such as a supervisory control and data acquisition (SCADA) system and outage management system (OMS). Along with real-time visualization and monitoring of network status, this Advanced Distribution Management System – ADMS – provides a host of analytical tools that recommend the most optimal device operations, or optionally automate device operations, to maximize network efficiency and reliability. For example, the utility can apply Volt/VAR control to reduce feeder voltage automatically with no effect on the consumer. Detailed load profiling and load forecasting based on integrated weather feeds yield network load forecasting for effective renewables integration. Network simulation helps forecast medium-term and long-term load and supports effective development and planning.
ADMS functionality and tools are demonstrating that utilities can effectively manage demand without building large-scale generation.
Wood-Mizer in Indianapolis, IN, one of the world’s
leading industrial sawmill manufacturers, has developed
the next generation of industrial sawmills by combining
a thin-kerf blade and advanced automation technology
for maximum log yield and profitability.
Thirty states in the United States have renewable portfolio standards. The U.S. EPA is targeting many coal plants for shutdown. Electricity rates may rise 50% in five years. Electric vehicles could add significant strain to an aging infrastructure. Wind and solar could add significant instability to power quality and reliability. Demand response (DR) is the answer to remaining globally competitive in an uncertain energy future. Once a novel way to earn extra cash, DR is rapidly becoming a key competitive strategy as utilities realize they must encourage more interaction with customers. Explore the evolving world of DR and how to plan for it. Copyright AIST Reprinted with Permission
The Challenges and Solutions to Integrate Multi-Facility/Buildings Disparate ...Schneider Electric
As presented at AIST 2014: This presentation describes how Multi-Facility SCADA and Historian solutions can be used within Steel Mill Plants as the single interface for monitoring and controlling all Steel Mill Facility Building Management Systems. This solution helps facility operations operate and maintain their buildings from a single environment without having to use multiple Building Management Systems, while maintaining all existing multi-vendor hardware by using software solutions for direct connectivity to the buildings control system, and without the need for hardware gateways. As a result, Steel Mill Plant Facility Operations see increased operating expenses and more maintenance time spent on maintaining, training and operating these disparate management systems.
[Webinar Slides] Advanced distribution management system integration of renew...Schneider Electric
Slide deck of the webinar presented by John Dirkman on Oct. 23, 2013.
The presence of highly variable renewables and distributed energy resources is rapidly increasing within distribution systems, resulting in the potential for problems like reverse power flow, impact on voltage profile, and more complex protection schemes.
During this webinar, John Dirkman, Senior Director of Smart Grid Strategy & Development at Schneider Electric, explored how an Advanced Distribution Management System (ADMS), combined with an accurate weather forecasting system, can be used to resolve problems and increase benefits of both renewables and distributed energy resources.
Key Learning Objectives:
- Learn how renewables and distributed energy resources can impact an electric distribution system.
- Discover ways to manage and optimize renewables and distributed energy resources using ADMS.
- Integration of an accurate weather forecasting system with ADMS maximizes benefits from renewables.
- Distributed energy resources and demand response are components of microgrids, also managed by ADMS.
Practical Options for Deploying IT Equipment in Small Server Rooms and Branch...Schneider Electric
Small server rooms and branch offices are typically unorganized, unsecure, hot, unmonitored, and space constrained. These conditions can lead to system downtime or, at the very least, lead to “close calls” that get management’s attention. Practical experience with these problems reveals a short list of effective methods to improve the availability of IT operations within small server rooms and branch offices. This paper discusses making realistic improvements to power, cooling, racks, physical security, monitoring, and lighting. The focus of this paper is on small server rooms and branch offices with up to 10kW of IT load.
Virtualization and Cloud Computing: Optimized Power, Cooling, and Management ...Schneider Electric
IT virtualization, the engine behind cloud computing, can have significant consequences on the data center physical infrastructure (DCPI). Higher power densities that often result can challenge the cooling capabilities of an existing system. Reduced overall energy consumption that typically results from physical server consolidation may actually worsen the data center’s power usage effectiveness (PUE). Dynamic loads that vary in time and location may heighten the risk of downtime if rack-level power and cooling health are not understood and considered. Finally, the fault-tolerant nature of a highly virtualized environment could raise questions about the level of redundancy required in the physical infrastructure. These particular effects of virtualization are discussed and possible solutions or methods for dealing with them are offered.
A key part of implementing Volt-VAR control and optimization is to identify the benefits that can be attributed to VVO. The major challenge is to separate the impacts of VVO (i.e. the VVO benefits) from the impacts of factors not related to VVO, such as changing weather conditions, random customer behavior and routine operational changes (planned switching). Utilities on the panel have performed VVO measurement and verification using different methods. Each presenter will describe how the method works, data requirements, strengths and weaknesses of the approach and results. The session also will summarize work by the IEEE Volt-VAR task force to develop IEEE Guideline P1885 M&V of VVO projects for electric distribution utilities.
Dtech 2015 the distribution management system network modelSchneider Electric
The presentation will illustrate the methodology deployed to achieve an accurate Distribution Network Model at Duke Energy Carolinas. It will also dive in to the impact on various stakeholders in the organization, as well as the change management process that drives the successful implementation of the model.
Maximize Your Data Center for Virtualization InitiativesSchneider Electric
Presentation focuses on the impact virtualization initiatives have on the data center and more importantly the critical
physical infrastructure supporting the data center. Virtualization is an IT strategy that can easily and quickly impact, with potential negative consequences, the reliability and availability of the data center. Understand the effects and some considerations in the implementation of virtualization.
Basic Concepts for an Integrated Steel Process Control SystemSchneider Electric
For the past few years, the market was preoccupied with discussions about terminology such as: distributed control systems (DCS), programmable logic controllers (PLC), and the “newcomers” hybrid control systems (HCS) and programmable automation controllers (PAC), and how each should be applied to steel and metals processing applications. Steel manufacturing is an industry that requires specific approaches for control systems; it mixes process, machines, discrete control, several motors, high-availability systems and involves massive amounts of variables and architectures that requires flexible topologies. Better understand these technologies, myths and facts, and learn the real needs and trends for control systems in steel and metals industries, regardless of labels and acronyms. Copyright AIST Reprinted with Permission
Effect on Substation Engineering Costs of IEC61850 & System Configuration ToolsSchneider Electric
Change management, software configuration training, and human error all impact the cost associated with substation automation engineering. Object-oriented engineering approaches as defined in the IEC 61850 standard represent significant cost savings when compared to traditional methods using hardwire and Distributed Network Protocol (DNP3). New multivendor system configuration tools are described that further reduce substation automation engineering costs.
ADMS is a comprehensive network management solution with monitoring, analysis, control, optimization, planning and training tools sharing a common infrastructure, data model, and user experience.
Presented at the 2013 Society of Mining, Metallurgy and Exploration Annual Meeting (SME 2013). Severe weather conditions can affect several aspects of the mining operations including blasting, planning and scheduling, people safety, and flooding. An advanced weather system should deliver real-time critical weather information able to support mining operations and people safety through weather forecast, lightning information, precipitation forecasts, and alerts.
The combination of Cisco's UCS Manager and Schneider Electric's DCIM solution provides Cisco UCS customers with an opportunity to bridge the gap between IT and Facilities, offer transparency across the two silos, and positively impact the rest of the organization – both in terms of efficiency, uptime and capex/opex costs. This is achieved by optimising the existing physical infrastructure capacities, thus reducing overprovisioning and improving the balance between supply and demand, resulting in continual availability and optimal energy efficiency.
The new Modicon M580 is the first ePAC with Ethernet built right into its core. M580 is the controller of choice for Schneider Electric’s collaborative and integrated automation architecture, PlantStruxure.
[Case study] Dakota Electric Association: Solutions to streamline GIS, design...Schneider Electric
Applications:
Integration of GIS-based processes makes existing circuits and proposed circuits
available in the same system so operations staff can work in parallel with the designers
rather than in succession.
Customer benefits
• Model, design and manage critical infrastructure
• Highly configurable
• Easily adapted for multiple uses
• Proactively identify needed repairs and replacements well in advance
More and more, as utilities face decreasing margin between system load and system capacity, they are in need of innovative smart grid solutions that can help them effectively disperse and store energy and manage load to meet resource requirements. Many are incorporating Distributed Energy Resources (DERs) to help fill the gap while, at the same time, meet requirements for reduced emissions and energy independence; these utilities will require the capability to accurately forecast and control DER contribution to the network, to assure security and grid reliability.
Advanced smart grid software designed to support DER management and optimize grid operations and planning works with a real-time network model, based on an accurate geodatabase and incorporating data from operational systems such as a supervisory control and data acquisition (SCADA) system and outage management system (OMS). Along with real-time visualization and monitoring of network status, this Advanced Distribution Management System – ADMS – provides a host of analytical tools that recommend the most optimal device operations, or optionally automate device operations, to maximize network efficiency and reliability. For example, the utility can apply Volt/VAR control to reduce feeder voltage automatically with no effect on the consumer. Detailed load profiling and load forecasting based on integrated weather feeds yield network load forecasting for effective renewables integration. Network simulation helps forecast medium-term and long-term load and supports effective development and planning.
ADMS functionality and tools are demonstrating that utilities can effectively manage demand without building large-scale generation.
Wood-Mizer in Indianapolis, IN, one of the world’s
leading industrial sawmill manufacturers, has developed
the next generation of industrial sawmills by combining
a thin-kerf blade and advanced automation technology
for maximum log yield and profitability.
Thirty states in the United States have renewable portfolio standards. The U.S. EPA is targeting many coal plants for shutdown. Electricity rates may rise 50% in five years. Electric vehicles could add significant strain to an aging infrastructure. Wind and solar could add significant instability to power quality and reliability. Demand response (DR) is the answer to remaining globally competitive in an uncertain energy future. Once a novel way to earn extra cash, DR is rapidly becoming a key competitive strategy as utilities realize they must encourage more interaction with customers. Explore the evolving world of DR and how to plan for it. Copyright AIST Reprinted with Permission
The Challenges and Solutions to Integrate Multi-Facility/Buildings Disparate ...Schneider Electric
As presented at AIST 2014: This presentation describes how Multi-Facility SCADA and Historian solutions can be used within Steel Mill Plants as the single interface for monitoring and controlling all Steel Mill Facility Building Management Systems. This solution helps facility operations operate and maintain their buildings from a single environment without having to use multiple Building Management Systems, while maintaining all existing multi-vendor hardware by using software solutions for direct connectivity to the buildings control system, and without the need for hardware gateways. As a result, Steel Mill Plant Facility Operations see increased operating expenses and more maintenance time spent on maintaining, training and operating these disparate management systems.
[Webinar Slides] Advanced distribution management system integration of renew...Schneider Electric
Slide deck of the webinar presented by John Dirkman on Oct. 23, 2013.
The presence of highly variable renewables and distributed energy resources is rapidly increasing within distribution systems, resulting in the potential for problems like reverse power flow, impact on voltage profile, and more complex protection schemes.
During this webinar, John Dirkman, Senior Director of Smart Grid Strategy & Development at Schneider Electric, explored how an Advanced Distribution Management System (ADMS), combined with an accurate weather forecasting system, can be used to resolve problems and increase benefits of both renewables and distributed energy resources.
Key Learning Objectives:
- Learn how renewables and distributed energy resources can impact an electric distribution system.
- Discover ways to manage and optimize renewables and distributed energy resources using ADMS.
- Integration of an accurate weather forecasting system with ADMS maximizes benefits from renewables.
- Distributed energy resources and demand response are components of microgrids, also managed by ADMS.
Practical Options for Deploying IT Equipment in Small Server Rooms and Branch...Schneider Electric
Small server rooms and branch offices are typically unorganized, unsecure, hot, unmonitored, and space constrained. These conditions can lead to system downtime or, at the very least, lead to “close calls” that get management’s attention. Practical experience with these problems reveals a short list of effective methods to improve the availability of IT operations within small server rooms and branch offices. This paper discusses making realistic improvements to power, cooling, racks, physical security, monitoring, and lighting. The focus of this paper is on small server rooms and branch offices with up to 10kW of IT load.
Data center systems or subsystems that are pre-assembled in a factory are often described with terms like prefabricated, containerized, modular, skid-based, pod-based, mobile, portable, self-contained, all-in-one, and more. There are, however, important distinctions between the various types of factory-built building blocks on the market. This paper proposes standard terminology for categorizing the types of prefabricated modular data centers, defines and compares their key attributes, and provides a framework for choosing the best approach(es) based on business requirements.
More Electric:
Our world is becoming More Electric. Almost everything we interact with today is either already electric or becoming electric. Think about it. From the time you start your day in the morning to the time you finish your day – your home, your car, your work, your devices, your entertainment – almost everything is electric. Imagine the energy needed to power this. Electricity consumption will increase by 80% in next 25 years
More Connected: Our lives are also becoming more connected. The Internet has already transformed the way we live, work and play. Now the Connected Things is going to take this to a brand new level. 50 billion things connected in the next 5 years.
More Distributed: With such a widespread electrification and connectivity, energy models need rethinking as well. Which is why the generation of power needs to be closer to users. Distributed Energy is rapidly evolving globally. This is positive energy – renewable. In 2014 , Renewables overtook fossil fuels in investment value, with $295bn invested in renewables compared to $289bn invested in fossil fuels. And it is getting cheaper to do this.
More Efficient: When our world is more electric, more connected and more distributed, new opportunities emerge and allows us to tap into even more efficiency – in industrial processes, in the energy value chain, in buildings, in transportation, in the global supply chain and even in the comfort and peace-of-mind of our homes.
With more than $18 billion in M&A activity in the first half of last year alone, the colocation industry is riding the bubble of rapid growth. Colocation data center providers are being evaluated by a wide range of investors, with varying experience and perspectives. Understanding the evaluation criteria is a critical competency for attracting the right type of investor and financial commitment for your colocation business and this is why we have invited today’s speaker to present.
Steve Wallage Steve Wallage is Managing Director of BroadGroup Consulting. Steve brings 25 years of industry experience, holding senior roles at Gartner Group, IDC, CGI and IBM before joining BroadGroup 10 years ago. In his responsibilities at BroadGroup Steve has led many due diligence projects for investors evaluating colocation companies.
In this briefing we explore the Phaseo power supplies and transformers offer presentation and application samples.
For more details:
Industrial%20Automation%20and%20Control&parent-category-id=4500&parent-subcategory-id=4510
We’ve all been hearing about how robust the market for data center space is, but a presentation by an investment banker who has his finger on the pulse on the market day in and day out gave me a new appreciation for how great the opportunity really is.
Herb May is a partner and managing director with DH Capital, an investment bank founded 15 years ago in New York that is focused on the Internet infrastructure space. His company has been involved in close to 100 deals, representing almost $20 billion in value. Most of DH Capital’s work is as a mergers and acquisitions advisor, but raising capital is a growing percentage of its business. The point is, the company understands the financials behind data centers and colocation companies inside and out.
At Schneider Electric, in the IT Division, our core business has always been focused on delivering the highest level of availability to critical technologies, systems and processes. We’ve done this through our award winning, industry-leading and highest quality products and solutions, including UPS, Cooling, Rack Systems, DCIM and Services.
In this new digital era, we see a world that is always-on.
Always on to meet the needs of the highest notion of “access” to goods and services
Always on to be the solid, reliable foundation of digital transformation for businesses
Our mission is: To empower the digital transformation of our customers by ensuring their critical network, systems and processes are highly available and resilient.
In this briefing we explore the Magelis Basic HMI offer presentation and application samples.
For more details:
https://www.schneider-electric.com/en/product-range/61054-magelis#search
In this briefing, we explore the Zelio time relay offer presentation and application samples.
For more details:
http://www.schneider-electric.com/en/product-range/529-zelio-time?parent-category-id=2800&parent-subcategory-id=2810&filter=business-1-industrial-automation-and-control
Spacial, Thalassa, ClimaSys Universal enclosures BriefingSchneider Electric
Discover more about Universal Enclosures and how to select the one you need.
For more information:
http://www.schneider-electric.com/en/product-category/5800-enclosures-and-accessories/?filter=business-1-industrial-automation-and-control
Learn more about "what is a solid state relay", key features and targeted applications.
For more details:
http://www.schneider-electric.com/en/product-range/60278-zelio-relays?parent-category-id=2800&filter=business-1-Industrial%20Automation%20and%20Control
Learn more about what an HMI does and the main components and a look at a typical HMI.
Further details:
http://www.schneider-electric.com/en/product-category/2100-HMI%20(Terminals%20and%20Industrial%20PC)?filter=business-1-Industrial%20Automation%20and%20Control
Where will the next 80% improvement in data center performance come from?Schneider Electric
Rick Puskar, Head of Marketing for Schneider Electric's IT Division presents at the Gartner Symposium in Barcelona November 8th, 2017. In this presentation Rick discusses where the next 80% improvement in data center performance will come from with a focus on the speed, availability and reliability of data. Learn how a cloud-based data center infrastructure management as a service architecture like Schneider Electric's EcoStruxure IT can drive such aggressive goals around data center performance.
Learn how EcoStruxure is digitizing industry with IIoT to increase end-to-end operational efficiency with more dynamic control for better business results.
Learn more about our System Integrator Alliance Program - A global partnership transforming industry and infrastructure by helping them make the most of their processes, the most of their assets and the most of their energy.
EcoStruxure, IIoT-enabled architecture, delivering value in key segments.Schneider Electric
As presented during the Alliance 2017 event, learn how to deliver integrated solutions based on EcoStruxure, our IIoT-enabled architecture for Wastewater, Food and Beverage and Mining, Minerals and Metals.
A Practical Guide to Ensuring Business Continuity and High Performance in Hea...Schneider Electric
Within healthcare facilities, high availability of systems is a key influencer of revenue and patient safety and satisfaction. Three important critical success factors need to be addressed in order to achieve safety and availability goals. These include exceeding the facility’s level of regulatory compliance, a linking of business benefits to the maintenance of a safe and an “always on” power and ventilation environment, and a sensible approach to technology upgrades that includes new strategies for “selling” technological improvements to executives. This reference guide offers recommendations for identifying and addressing each of these issues.
Connected Services Study – Facility Managers Respond to IoTSchneider Electric
According to a new 2017 study commissioned by Schneider Electric, facility managers are increasingly looking to leverage the Internet of Things (IoT) by implementing new digital technologies like intelligent analytics to improve maintenance decisions and operations. Explore the full results on how facility managers are reacting to IoT when it comes to facility maintenance.
Learn more about cabling and accessories and the complete ranges available featuring 3 types of cable to suit the envirionment. For more details: http://www.schneider-electric.com/en/product-subcategory/88035-cordset-and-connectors/?filter=business-1-industrial-automation-and-control&parent-category-id=4900
This briefing will look at the general purpose of Photoelectric sensors and Photoelectric fork and frame sensors. For more details: http://www.tesensors.com/global/en/product/photoelectric/xu/?filter=business-1-automation-and-control&parent-category-id=4900/
A world-class global brand offering a comprehensive line of Limit Switches complying with international standards: IEC, UL, CSA, CCC, GOST. For more details: http://www.tesensors.com/global/en/product/limit-switches/xc-standard/?cat_id=BU_AUT_520_L4&conf=sensors&el_typ=node&nod_id=0000000002&prev_nod_id=0000000001&scp_id=Z000
A tale of scale & speed: How the US Navy is enabling software delivery from l...sonjaschweigert1
Rapid and secure feature delivery is a goal across every application team and every branch of the DoD. The Navy’s DevSecOps platform, Party Barge, has achieved:
- Reduction in onboarding time from 5 weeks to 1 day
- Improved developer experience and productivity through actionable findings and reduction of false positives
- Maintenance of superior security standards and inherent policy enforcement with Authorization to Operate (ATO)
Development teams can ship efficiently and ensure applications are cyber ready for Navy Authorizing Officials (AOs). In this webinar, Sigma Defense and Anchore will give attendees a look behind the scenes and demo secure pipeline automation and security artifacts that speed up application ATO and time to production.
We will cover:
- How to remove silos in DevSecOps
- How to build efficient development pipeline roles and component templates
- How to deliver security artifacts that matter for ATO’s (SBOMs, vulnerability reports, and policy evidence)
- How to streamline operations with automated policy checks on container images
Smart TV Buyer Insights Survey 2024 by 91mobiles.pdf91mobiles
91mobiles recently conducted a Smart TV Buyer Insights Survey in which we asked over 3,000 respondents about the TV they own, aspects they look at on a new TV, and their TV buying preferences.
GraphRAG is All You need? LLM & Knowledge GraphGuy Korland
Guy Korland, CEO and Co-founder of FalkorDB, will review two articles on the integration of language models with knowledge graphs.
1. Unifying Large Language Models and Knowledge Graphs: A Roadmap.
https://arxiv.org/abs/2306.08302
2. Microsoft Research's GraphRAG paper and a review paper on various uses of knowledge graphs:
https://www.microsoft.com/en-us/research/blog/graphrag-unlocking-llm-discovery-on-narrative-private-data/
Why You Should Replace Windows 11 with Nitrux Linux 3.5.0 for enhanced perfor...SOFTTECHHUB
The choice of an operating system plays a pivotal role in shaping our computing experience. For decades, Microsoft's Windows has dominated the market, offering a familiar and widely adopted platform for personal and professional use. However, as technological advancements continue to push the boundaries of innovation, alternative operating systems have emerged, challenging the status quo and offering users a fresh perspective on computing.
One such alternative that has garnered significant attention and acclaim is Nitrux Linux 3.5.0, a sleek, powerful, and user-friendly Linux distribution that promises to redefine the way we interact with our devices. With its focus on performance, security, and customization, Nitrux Linux presents a compelling case for those seeking to break free from the constraints of proprietary software and embrace the freedom and flexibility of open-source computing.
In his public lecture, Christian Timmerer provides insights into the fascinating history of video streaming, starting from its humble beginnings before YouTube to the groundbreaking technologies that now dominate platforms like Netflix and ORF ON. Timmerer also presents provocative contributions of his own that have significantly influenced the industry. He concludes by looking at future challenges and invites the audience to join in a discussion.
Pushing the limits of ePRTC: 100ns holdover for 100 daysAdtran
At WSTS 2024, Alon Stern explored the topic of parametric holdover and explained how recent research findings can be implemented in real-world PNT networks to achieve 100 nanoseconds of accuracy for up to 100 days.
zkStudyClub - Reef: Fast Succinct Non-Interactive Zero-Knowledge Regex ProofsAlex Pruden
This paper presents Reef, a system for generating publicly verifiable succinct non-interactive zero-knowledge proofs that a committed document matches or does not match a regular expression. We describe applications such as proving the strength of passwords, the provenance of email despite redactions, the validity of oblivious DNS queries, and the existence of mutations in DNA. Reef supports the Perl Compatible Regular Expression syntax, including wildcards, alternation, ranges, capture groups, Kleene star, negations, and lookarounds. Reef introduces a new type of automata, Skipping Alternating Finite Automata (SAFA), that skips irrelevant parts of a document when producing proofs without undermining soundness, and instantiates SAFA with a lookup argument. Our experimental evaluation confirms that Reef can generate proofs for documents with 32M characters; the proofs are small and cheap to verify (under a second).
Paper: https://eprint.iacr.org/2023/1886
Removing Uninteresting Bytes in Software FuzzingAftab Hussain
Imagine a world where software fuzzing, the process of mutating bytes in test seeds to uncover hidden and erroneous program behaviors, becomes faster and more effective. A lot depends on the initial seeds, which can significantly dictate the trajectory of a fuzzing campaign, particularly in terms of how long it takes to uncover interesting behaviour in your code. We introduce DIAR, a technique designed to speedup fuzzing campaigns by pinpointing and eliminating those uninteresting bytes in the seeds. Picture this: instead of wasting valuable resources on meaningless mutations in large, bloated seeds, DIAR removes the unnecessary bytes, streamlining the entire process.
In this work, we equipped AFL, a popular fuzzer, with DIAR and examined two critical Linux libraries -- Libxml's xmllint, a tool for parsing xml documents, and Binutil's readelf, an essential debugging and security analysis command-line tool used to display detailed information about ELF (Executable and Linkable Format). Our preliminary results show that AFL+DIAR does not only discover new paths more quickly but also achieves higher coverage overall. This work thus showcases how starting with lean and optimized seeds can lead to faster, more comprehensive fuzzing campaigns -- and DIAR helps you find such seeds.
- These are slides of the talk given at IEEE International Conference on Software Testing Verification and Validation Workshop, ICSTW 2022.
State of ICS and IoT Cyber Threat Landscape Report 2024 previewPrayukth K V
The IoT and OT threat landscape report has been prepared by the Threat Research Team at Sectrio using data from Sectrio, cyber threat intelligence farming facilities spread across over 85 cities around the world. In addition, Sectrio also runs AI-based advanced threat and payload engagement facilities that serve as sinks to attract and engage sophisticated threat actors, and newer malware including new variants and latent threats that are at an earlier stage of development.
The latest edition of the OT/ICS and IoT security Threat Landscape Report 2024 also covers:
State of global ICS asset and network exposure
Sectoral targets and attacks as well as the cost of ransom
Global APT activity, AI usage, actor and tactic profiles, and implications
Rise in volumes of AI-powered cyberattacks
Major cyber events in 2024
Malware and malicious payload trends
Cyberattack types and targets
Vulnerability exploit attempts on CVEs
Attacks on counties – USA
Expansion of bot farms – how, where, and why
In-depth analysis of the cyber threat landscape across North America, South America, Europe, APAC, and the Middle East
Why are attacks on smart factories rising?
Cyber risk predictions
Axis of attacks – Europe
Systemic attacks in the Middle East
Download the full report from here:
https://sectrio.com/resources/ot-threat-landscape-reports/sectrio-releases-ot-ics-and-iot-security-threat-landscape-report-2024/
Dev Dives: Train smarter, not harder – active learning and UiPath LLMs for do...UiPathCommunity
💥 Speed, accuracy, and scaling – discover the superpowers of GenAI in action with UiPath Document Understanding and Communications Mining™:
See how to accelerate model training and optimize model performance with active learning
Learn about the latest enhancements to out-of-the-box document processing – with little to no training required
Get an exclusive demo of the new family of UiPath LLMs – GenAI models specialized for processing different types of documents and messages
This is a hands-on session specifically designed for automation developers and AI enthusiasts seeking to enhance their knowledge in leveraging the latest intelligent document processing capabilities offered by UiPath.
Speakers:
👨🏫 Andras Palfi, Senior Product Manager, UiPath
👩🏫 Lenka Dulovicova, Product Program Manager, UiPath
Welcome to the first live UiPath Community Day Dubai! Join us for this unique occasion to meet our local and global UiPath Community and leaders. You will get a full view of the MEA region's automation landscape and the AI Powered automation technology capabilities of UiPath. Also, hosted by our local partners Marc Ellis, you will enjoy a half-day packed with industry insights and automation peers networking.
📕 Curious on our agenda? Wait no more!
10:00 Welcome note - UiPath Community in Dubai
Lovely Sinha, UiPath Community Chapter Leader, UiPath MVPx3, Hyper-automation Consultant, First Abu Dhabi Bank
10:20 A UiPath cross-region MEA overview
Ashraf El Zarka, VP and Managing Director MEA, UiPath
10:35: Customer Success Journey
Deepthi Deepak, Head of Intelligent Automation CoE, First Abu Dhabi Bank
11:15 The UiPath approach to GenAI with our three principles: improve accuracy, supercharge productivity, and automate more
Boris Krumrey, Global VP, Automation Innovation, UiPath
12:15 To discover how Marc Ellis leverages tech-driven solutions in recruitment and managed services.
Brendan Lingam, Director of Sales and Business Development, Marc Ellis
DevOps and Testing slides at DASA ConnectKari Kakkonen
My and Rik Marselis slides at 30.5.2024 DASA Connect conference. We discuss about what is testing, then what is agile testing and finally what is Testing in DevOps. Finally we had lovely workshop with the participants trying to find out different ways to think about quality and testing in different parts of the DevOps infinity loop.
Le nuove frontiere dell'AI nell'RPA con UiPath Autopilot™UiPathCommunity
In questo evento online gratuito, organizzato dalla Community Italiana di UiPath, potrai esplorare le nuove funzionalità di Autopilot, il tool che integra l'Intelligenza Artificiale nei processi di sviluppo e utilizzo delle Automazioni.
📕 Vedremo insieme alcuni esempi dell'utilizzo di Autopilot in diversi tool della Suite UiPath:
Autopilot per Studio Web
Autopilot per Studio
Autopilot per Apps
Clipboard AI
GenAI applicata alla Document Understanding
👨🏫👨💻 Speakers:
Stefano Negro, UiPath MVPx3, RPA Tech Lead @ BSP Consultant
Flavio Martinelli, UiPath MVP 2023, Technical Account Manager @UiPath
Andrei Tasca, RPA Solutions Team Lead @NTT Data
Epistemic Interaction - tuning interfaces to provide information for AI supportAlan Dix
Paper presented at SYNERGY workshop at AVI 2024, Genoa, Italy. 3rd June 2024
https://alandix.com/academic/papers/synergy2024-epistemic/
As machine learning integrates deeper into human-computer interactions, the concept of epistemic interaction emerges, aiming to refine these interactions to enhance system adaptability. This approach encourages minor, intentional adjustments in user behaviour to enrich the data available for system learning. This paper introduces epistemic interaction within the context of human-system communication, illustrating how deliberate interaction design can improve system understanding and adaptation. Through concrete examples, we demonstrate the potential of epistemic interaction to significantly advance human-computer interaction by leveraging intuitive human communication strategies to inform system design and functionality, offering a novel pathway for enriching user-system engagements.
Essentials of Automations: The Art of Triggers and Actions in FMESafe Software
In this second installment of our Essentials of Automations webinar series, we’ll explore the landscape of triggers and actions, guiding you through the nuances of authoring and adapting workspaces for seamless automations. Gain an understanding of the full spectrum of triggers and actions available in FME, empowering you to enhance your workspaces for efficient automation.
We’ll kick things off by showcasing the most commonly used event-based triggers, introducing you to various automation workflows like manual triggers, schedules, directory watchers, and more. Plus, see how these elements play out in real scenarios.
Whether you’re tweaking your current setup or building from the ground up, this session will arm you with the tools and insights needed to transform your FME usage into a powerhouse of productivity. Join us to discover effective strategies that simplify complex processes, enhancing your productivity and transforming your data management practices with FME. Let’s turn complexity into clarity and make your workspaces work wonders!
Secstrike : Reverse Engineering & Pwnable tools for CTF.pptx
A New Language for Specifying Modular Data Centers
1. A New Language for
Specifying Modular Data Centers
Neil Rasmussen
Sr. Vice President, Innovation
APC by Schneider Electric
2. Desired characteristics
● Flexibility
● Scalability
● Handles uncertain growth plans
● Quick to deploy
● Cost effectiveness
● Right-sized
● Low energy costs
● Simplified planning and engineering
● Predictable
● Performance clearly established in advance
● Tested and validated designs
2
3. Desired characteristics
● Flexibility
● Scalability
● Handles uncertain growth plans
● Quick to deploy
Scalability
● Cost effectiveness
● Right-sized
● Low energy costs Standardization
● Simplified planning and engineering
● Predictable
● Performance clearly established in advance
● Tested and validated designs
Standardization and Scalability are the key. Modularity is
just a technical tool that can help us achieve these.
3
4. Modularity is valuable only to
the extent that it helps achieve
standardization and scalability
4
5. Modularity is valuable only to
the extent that it helps achieve
standardization and scalability
Unique Modular Designs Modular but not
inherently scalable
Designs
5
6. What is a modular architecture?
● It defines a set of modules from which data centers are
deployed
● The set of modules includes the necessary and
sufficient subsystems to create the data center
● Subsystems are packaged together to in order to
minimize complexity of deployment.
● It is comprised of rules, tools, and methods that
together prescribe how modules are deployed over
time to support the growth plan for the data center
● The compatibility and system performance of
prescribed combinations of modules are assured in
advance
6
7. What makes a modular architecture better?
● The system is engineered to minimize the planning,
installation, configuration, and programming work
required to deploy IT capacity.
● The “granularity” of module sizes has been established
to be an effective tradeoff between cost, simplicity, and
rightsizing for the application
● It achieves better performance for the application
(smaller, lower PUE, lower water use, lower failure rate, etc)
● It allows for future options related to availability
(redundancy) and power density
● It is open enough to accommodate new modules from
multiple vendors
7
8. Data Center Sub-systems to be
packaged in a modular architecture
Generators
IT Racks
Chilled Water Pumps
Heat Exchanger Stationary PDUs
Fire Suppression Rack PDUs
Cooling Towers
Condenser Water Pumps Busway
Switchgear CRAC Surveillance
Humidifiers Air Handers UPS
IT Racks
Aisle Containment Lighting
DCIM Software 8
9. Three characteristics needed to describe
modular architecture
How modularity is
Modularity types implemented in devices to
achieve functions
Level of the system where
Modularity hierarchy modularity is applied
Relationship between
Modularity linkages deployment of different
modules
Alternative modular architectures can vary in all three of
these dimensions
9
10. Modularity Types how implemented in devices
Device modularity: devices are made up of modular
components
Examples:
a large UPS frame that holds UPS modules
a large air handler containing fan modules
Subsystem modularity: a functional block is made up of
multiple devices of the same type
Examples:
a parallel array of UPS
a parallel array of independent air handlers
The function can be obtained by either or a mix of types.
Subsystems (power, cooling, etc) can use different types
10
11. Modularity Hierarchy Level of system where implemented
Data Center facility, comprised one or more units of
IT Rooms, comprised of one or more units of
IT Pods, comprised of one or more units of
IT Cabinets
Example:
Modular air handler or UPS could be deployed at
either the facility, IT room, IT Pod, or Rack level
Modularity of different subsystems can be applied at
different levels
11
12. Modularity Linkages Relationship between deployment
of different modules
Packaged linkage: devices of different subsystems are
packaged together and must be deployed as a unit
Examples:
an IT pod module (or container) that contains a fixed group of
racks, air handlers, PDUs, and environmental monitoring
devices as a set
Rules based linkage: rules establish allowed
combinations of modules
Examples:
For 3 UPS modules a generator module must be deployed
Granularity of deployment may be different for different
subsystems, but relationship is defined
12
13. Communicating an architecture
● Graphical means to show all three modularity attributes together
● Modularity Type
● Modularity Hierarchy
● Modularity Linkages
● Shows how all key subsystems are deployed
● Illustrates rules of when modules are deployed
● Allows comparison of different modular architectures for
● Scalability
● Implementation of redundancy
● Investment required vs capacity
13
14. Pod Room Facility
Enclosure
Rack PDU
deployed at
Stationary PDU
UPS Pod
CRAH
Subsystems
Hot aisle containment
Cooling Distribution Unit
Humidifier deployed at
CW loop pump
Room
Lighting
Chiller
Economizer Heat
Exchanger
750KW
Tower deployed at
3 rooms
Facility
9 pods Generator
90 racks Switchgear
8kW/rack
80kW/pod Growth > 14
15. Four basic forms of modular power and cooling plants
Plant provides power and
1 cooling fluid to liquid
cooled IT pods in rooms
Plant provides power and
2 chilled air to air cooled IT
pods in rooms
3 Plant provides power and
cooling fluid to IT containers
Plant provides power and
4 chilled air to IT containers
Note: All systems designed for IT loads using hot aisle containment 15
16. Magic numbers affecting modularity
● 2.25MW: The maximum size generator set that ships on roadways
without special permits
● 8 x 8 x 40 ft: The size of an ISO shipping container
● 800KW: The maximum transformer size that does not require
supplemental downstream leakage current detection systems
● 3000A: The maximum current rating of switchgear before the
design must change to a larger and more expensive system
● 14kW: The maximum size of a 415/240V rack PDU that does not
require integral branch circuit breakers
● 10,000 Amps: The maximum fault current of a power bus supplied
to an IT space
● 89 degrees F: maximum temp an IT operator can be continuously
exposed to
Data centers are likely to to drive modules toward optimal
Numbers like these tend become a target for restrictions
whereand interfaces that should become standards
sizes water resources are scarce
16
17. Benefits when modules are standardized
and scalable
● Allows standardization of DCIM software
● Simplification of design process
● Rightsizing
● Speed of deployment / commissioning
● Pre-characterized performance
● Pre-fabrication
● Higher efficiency
● Add capacity with less disruption
● Mixing of types of modules (density, redundancy)
● Simplified maintenance programs
● Lower initial and lifecycle cost
17
18. Benefits when modules are standardized
and scalable
● Allows standardization of DCIM software ($0.4 - $1.5 per W)
● Simplification of design process ($0.1 - $0.3 per W)
● Rightsizing ($0.5 - $2.0 per W)
● Speed of deployment / commissioning ($0.1 - $0.2 per W)
● Pre-characterized performance
● Pre-fabrication ($0.2 - $0.5 per W)
● Higher efficiency ($0.5 - $2.0 per W)
● Add capacity with less disruption
● Mixing of types of modules (density, redundancy)
● Simplified maintenance programs ($0.2 - $0.5 per W)
● Lower initial and lifecycle cost* ($2.0 - $7.0 per W)
*Savings from a typical lifecycle cost of $15-$25 per watt 18
20. Downsides of standardized modularity
● Customers may need to abandon certain preferences and internal
standards
● Customers cannot choose an arbitrary final or step size, because
capacity may only be available in certain size increments
● Some building shells or sites may be poorly suited or incompatible
with available modules (ceiling height, room shape, accessways,
etc)
● Unless standards emerge, customers choosing one architecture
may feel “locked in” and find it difficult to move to alternative
vendors for future expansion
20
21. The Future of Modularity
● Subsystems eventually packaged into three modules :
● Power plant
● Cooling plant
● IT space
● Differing needs will require different modular architectures:
● Size increments
● redundancy
● climate
● retrofits
● Industry standards for module interfaces need to emerge
● A common language for specification of modular data
centers will emerge
21
22. Questions?
Resources
The Specification of Modular Data Center Architecture
Schneider Electric White Paper 160
Containerized Power and Cooling Modules for Data
Centers
Schneider Electric White Paper 163
22