SafePeak - IT particle accelerator (2012)Vladi Vexler
An Economic Review of performance, scale and budget effects on the IT and organizational performance.
Provided by SafePeak, an automated in-memory dynamic caching for SQL Server applications
Next Generation Data Protection Architecture Gina Tragos
The document discusses next generation data protection solutions. It summarizes that traditional point solutions for backup, replication, availability, etc. have become inadequate for modern computing needs. Next generation solutions provide unified data protection that is highly scalable, easy to manage, and offers improved data protection and recovery capabilities. Case studies show how next generation solutions from Arcserve help organizations reduce backup windows, enable disaster recovery within hours instead of days, and provide centralized management of data protection across multiple locations and petabytes of storage.
Arcserve spun out from CA Technologies to become an independent company in August 2014. The document discusses Arcserve's new business strategy and global presence as an independent company, as well as its data management solutions including Arcserve Unified Data Protection, which provides a single, unified solution for backup, replication, recovery point server deduplication, virtual standby, and other features to simplify data protection.
Arcserve spun out from CA Technologies to become an independent company in August 2014. The document discusses Arcserve's unified data protection solution, which combines data backup, replication, high availability, virtual standby, and tape archiving into a single management console. It can protect physical and virtual systems from a single site to multiple remote offices and the cloud.
The document discusses data protection for Oracle databases, including challenges, goals, best practices, and Oracle support services. It outlines data protection terminology like recovery point and time objectives. It then summarizes Oracle Recovery Manager (RMAN) and how it can reduce exposure to data loss and improve recovery times for Oracle databases. Finally, it discusses how the Sun ZFS Storage Appliance can provide a simplified, cost-effective solution for backup and recovery when used with RMAN.
This document summarizes an upcoming presentation and live demo on solutions for virtualization, cloud computing, and licensing and support options for CA Technologies' Unified Data Protection product. The presentation will cover virtualization best practices, agentless backup solutions for VMware and Hyper-V, virtual standby capabilities, backup to public and private clouds, and simplified licensing and support offerings. A demo environment will be used to showcase backup, replication, and recovery features for virtual and physical servers across on-premises and cloud locations.
The document describes a server refresh program that was previously disorganized and tracked via Excel spreadsheets. It outlines how the program applied lean, kanban and theory of constraints (TOC) principles to improve organization and throughput. Key changes included defining different server migration paths to reduce bottleneck meetings with architects, using a kanban board to visually track server progress, establishing work-in-progress limits, and ensuring a clear definition of completion by removing servers from support contracts. This helped increase throughput by 300% while standardizing processes and documentation.
SafePeak - IT particle accelerator (2012)Vladi Vexler
An Economic Review of performance, scale and budget effects on the IT and organizational performance.
Provided by SafePeak, an automated in-memory dynamic caching for SQL Server applications
Next Generation Data Protection Architecture Gina Tragos
The document discusses next generation data protection solutions. It summarizes that traditional point solutions for backup, replication, availability, etc. have become inadequate for modern computing needs. Next generation solutions provide unified data protection that is highly scalable, easy to manage, and offers improved data protection and recovery capabilities. Case studies show how next generation solutions from Arcserve help organizations reduce backup windows, enable disaster recovery within hours instead of days, and provide centralized management of data protection across multiple locations and petabytes of storage.
Arcserve spun out from CA Technologies to become an independent company in August 2014. The document discusses Arcserve's new business strategy and global presence as an independent company, as well as its data management solutions including Arcserve Unified Data Protection, which provides a single, unified solution for backup, replication, recovery point server deduplication, virtual standby, and other features to simplify data protection.
Arcserve spun out from CA Technologies to become an independent company in August 2014. The document discusses Arcserve's unified data protection solution, which combines data backup, replication, high availability, virtual standby, and tape archiving into a single management console. It can protect physical and virtual systems from a single site to multiple remote offices and the cloud.
The document discusses data protection for Oracle databases, including challenges, goals, best practices, and Oracle support services. It outlines data protection terminology like recovery point and time objectives. It then summarizes Oracle Recovery Manager (RMAN) and how it can reduce exposure to data loss and improve recovery times for Oracle databases. Finally, it discusses how the Sun ZFS Storage Appliance can provide a simplified, cost-effective solution for backup and recovery when used with RMAN.
This document summarizes an upcoming presentation and live demo on solutions for virtualization, cloud computing, and licensing and support options for CA Technologies' Unified Data Protection product. The presentation will cover virtualization best practices, agentless backup solutions for VMware and Hyper-V, virtual standby capabilities, backup to public and private clouds, and simplified licensing and support offerings. A demo environment will be used to showcase backup, replication, and recovery features for virtual and physical servers across on-premises and cloud locations.
The document describes a server refresh program that was previously disorganized and tracked via Excel spreadsheets. It outlines how the program applied lean, kanban and theory of constraints (TOC) principles to improve organization and throughput. Key changes included defining different server migration paths to reduce bottleneck meetings with architects, using a kanban board to visually track server progress, establishing work-in-progress limits, and ensuring a clear definition of completion by removing servers from support contracts. This helped increase throughput by 300% while standardizing processes and documentation.
This document describes the working of a cyclotron particle accelerator. It explains that a cyclotron uses a magnetic field to curve the path of charged particles into a circular orbit, while an alternating electric field accelerates the particles at each half orbit. As the particles accelerate, they travel along spiraling paths of increasing radius. The document provides details on the construction of a cyclotron, including its dees and vacuum chamber between magnets. It also gives the mathematical expression for the cyclotron frequency that determines the electric field frequency needed for resonance acceleration. Limitations of the cyclotron are that particle mass may change at high speeds and it is difficult to accelerate low-mass particles like electrons.
The cyclotron was invented by Leo Szilard in the early 1900s and accelerated the development of nuclear physics and particle accelerators. It allowed scientists to produce radionuclides for medical imaging like PET scans and treat cancer with proton therapy. Szilard later regretted his role in nuclear weapons and founded the Council for a Livable World to advocate for arms control. The cyclotron continues to be used for fundamental particle physics research and medical isotopes, influencing fields from astrophysics to medicine.
CHARGE PARTICLE ACCELERATORCharge particle acceleratorSYED SHAHEEN SHAH
A particle accelerator is a device that increases the kinetic energy of electrically charged particles through the use of electric and magnetic fields. The cyclotron, invented in 1931, is an early type of particle accelerator that uses a high frequency oscillator to accelerate positively charged particles in a spiral path between two "D-shaped" electrodes placed in a strong magnetic field. As the particles accelerate, they travel in larger circular paths until they exit and can be used for nuclear reaction experiments or medical treatments like cancer therapy.
A particle accelerator is a device that uses electromagnetic fields to accelerate charged particles to high speeds and contain them in well-defined beams. They can be used for purposes like radiotherapy, ion implantation, and industrial and biomedical research. The largest particle accelerators in the world are the RHIC, the LHC at CERN, and the Tevatron, which are used for experimental particle physics research. Particle accelerators can be divided into low-energy machines like cathode ray tubes and X-ray generators, and high-energy machines capable of nuclear reactions like the LHC, which smashes particles together at high speeds to study the origins of the universe.
A betatron is a device that accelerates electrons using an expanding magnetic field within a doughnut-shaped vacuum chamber. Electrons are injected into the chamber and accelerated as the magnetic field strength increases over time. This increasing magnetic flux induces an electric field that increases the electrons' energy, allowing them to gain extremely high speeds. The betatron condition requires that the rate of change of magnetic flux through the circular orbit equals 2π times the radius squared times the rate of change of the magnetic field, in order to maintain the electrons' constant orbital radius as they accelerate.
The document discusses particle accelerators and nuclear physics. It provides definitions of particle accelerators and describes their basic working principle of using electromagnetic fields to accelerate charged particles. It discusses different types of particle accelerators like linear accelerators, cyclotrons, synchrotrons and their components and working. The largest particle accelerators in the world, like the LHC and RHIC, are mentioned. Applications of particle accelerators discussed include uses in medicine, industry, DNA research and treating cancer.
The document summarizes the cyclotron, which accelerates charged particles. It was invented in 1934 by Lawrence and Livingston. A cyclotron uses a magnetic field to bend charged particles into a circular path between two "dees" where an alternating electric field accelerates the particles on each half-circle. As the particles' velocity and radius increase with each pass between the dees, their kinetic energy also increases until they exit the cyclotron. The cyclotron is still used today as the first stage of some large particle accelerators to produce very high energy particles for nuclear physics experiments requiring high-energy collisions.
Cyclotrons accelerate charged particles using oscillating electric fields generated between hollow metal chambers called dees. A positive ion is placed between the dees and accelerated toward the first dee when it is negatively charged. It follows a semicircular path due to a strong magnetic field until the dee polarities are reversed, accelerating it toward the second dee and to higher energies with each pass through the oscillating field. Cyclotrons can be used to accelerate ion beams for nuclear physics experiments and cancer treatment through proton therapy.
The document discusses cyclotrons, which are particle accelerators that use oscillating electric fields and strong magnetic fields to accelerate charged particles in a spiral path. It provides details on the construction and working principles of cyclotrons, including how particles gain energy through repeated passes between the dee electrodes. The summary also mentions some key uses of cyclotrons in nuclear physics research and medical applications like proton therapy for cancer treatment.
The document discusses synchrotrons, which are particle accelerators that produce very bright light for research. It describes how synchrotrons work, with electrons being emitted and accelerated through components like an electron gun, linear accelerator, booster ring, and storage ring. This produces intense electromagnetic waves called synchrotron light. Synchrotron light is much brighter than standard X-rays and allows scientists to observe molecular interactions. The document outlines some of the many applications of synchrotrons, such as in materials engineering, medical imaging and therapy, environmental research, and forensics.
This document appears to be a student project report on investigating the relationship between input/output voltage and number of turns in the primary and secondary coils of a transformer. It includes sections on introduction, theory, apparatus, procedure, observations, conclusion, and bibliography. The key points are that the output voltage of a transformer depends on the ratio of turns in the secondary coil to the primary coil, and that there are losses between the input and output resulting in the transformer's efficiency being less than 100%.
The document discusses disaster recovery for mission critical applications. It notes challenges in ensuring application availability with data growth and budget pressures, while meeting regulatory requirements. It discusses using replication, snapshots, and continuous data protection to reduce recovery point objectives (RPO) from hours to minutes or less. EMC provides integrated solutions using technologies like Data Domain, Avamar, RecoverPoint, and VPlex to automate backup, replication, and recovery for applications.
EMC presented an overview of SQL Server 2012 and how it can help organizations unlock insights from data, improve performance of mission critical applications, and create business solutions across on-premises and cloud environments. EMC positions itself as the leader in mission critical infrastructure and discusses how its storage solutions like VNX, VMAX, and FAST cache can boost the performance of SQL Server workloads by 3-4x while improving reliability, availability, backup speeds and reducing storage needs. The presentation provides best practices for optimizing SQL Server deployments and highlights EMC's management and data protection tools for SQL Server.
In this presentation we present EAGLE's ideas on designing a modern disaster recovery environment. Key concepts include balancing cost, risk and complexity in DR strategies. Most notably we'll cover recovery objectives, common DR technologies (that allow you to backup and pre-position data), and the importance of viewing DR as an insurance policy.
Designing a Modern Disaster Recovery EnvironmentBrian Anderson
In this presentation I presented EAGLE's ideas on designing a modern disaster recovery environment. Key concepts include balancing cost, risk and complexity in DR strategies. Most notably we'll cover recovery objectives, common DR technologies (that allow you to backup and pre-position data), and the importance of viewing DR as an insurance policy.
Continuous Availability for Private Database CloudsNoel Sidebotham
One important aspect of cloud computing is Availability; all Oracle solutions are built with availability in mind and Oracle provides a blueprint called the Maximum Availability Architecture and in this session we will look at the important aspects of this architecture and how you can achieve Continuous Availability for your private database cloud that extended to included non-oracle databases as well.
From this presentation you will learn about:
• The importance of Continuous Availability
• The Causes & Impact of Downtime
• Road map to building a flexible Maximum Availability Architecture
• Extending continuous availability to your non-Oracle databases
This document describes a webinar on real-life WebSocket case studies and demos that will feature speakers from Pythio and Kaazing. The webinar details include date, time, speaker information, and dial-in details. The document also includes an agenda that outlines presentations on Pythio's technology platform and use of WebSockets for real-time publishing of running event data.
This document summarizes a presentation about scale-out converged solutions for analytics. The presentation covers the history of analytic infrastructure, why scale-out converged solutions are beneficial, an analytic workflow enabled by EMC Isilon storage and Hadoop, test results showing performance benefits, customer use cases, and next steps. It includes an agenda, diagrams demonstrating analytic workflows, performance comparisons, and descriptions of enterprise features provided by using EMC Isilon with Hadoop.
Riverbed SteelFusion serves as the infrastructure for your rig or branch, significantly lowering capital and operational costs, mitigating the risk of rig/branch disasters, and improving IT’s responsiveness to the business.
- Slash IT costs by eliminating the need to purchase, maintain, and backup servers in branch offices
- Ensure business continuity and rapidly recover from disasters or interruptions
- Reduce data loss with near real-time synchronization of data to the datacenter
- Control data in the datacenter, removing sensitive information from high-risk locations
- Reduce branch administration costs by leveraging standardized datacenter policies and procedures
Sqlsat154 maintain your dbs with help from ola hallengrenAndy Galbraith
Ola Hallengren created a free database maintenance solution that automates common maintenance tasks like backups, integrity checks, and index optimization. The solution uses stored procedures that can be easily scheduled. It has options to configure maintenance settings and log output. Implementing the solution involves downloading a script, configuring settings, and scheduling the provided jobs.
This document discusses the successful migration of Oracle's Taleo Business Edition cloud service to Oracle Database 12c. It provides context on TBE's rapid growth necessitating a more robust database platform. It describes how Oracle 12c was well-suited for the migration due to its optimizations for multi-tenancy and cloud deployments. The document also outlines the transition lifecycle and lessons learned from the project.
The document discusses strategies for protecting data, including:
1. Implementing a well-defined data protection architecture using Oracle Database security controls and services like Data Safe to assess risks, discover sensitive data, and audit activities.
2. Using high availability technologies like Oracle Real Application Clusters and disaster recovery options like Data Guard and GoldenGate to ensure redundancy and meet recovery objectives.
3. Addressing challenges with traditional backup and restore approaches and the need for a new solution given critical failures and costs of $2.5M per year to correct.
This document describes the working of a cyclotron particle accelerator. It explains that a cyclotron uses a magnetic field to curve the path of charged particles into a circular orbit, while an alternating electric field accelerates the particles at each half orbit. As the particles accelerate, they travel along spiraling paths of increasing radius. The document provides details on the construction of a cyclotron, including its dees and vacuum chamber between magnets. It also gives the mathematical expression for the cyclotron frequency that determines the electric field frequency needed for resonance acceleration. Limitations of the cyclotron are that particle mass may change at high speeds and it is difficult to accelerate low-mass particles like electrons.
The cyclotron was invented by Leo Szilard in the early 1900s and accelerated the development of nuclear physics and particle accelerators. It allowed scientists to produce radionuclides for medical imaging like PET scans and treat cancer with proton therapy. Szilard later regretted his role in nuclear weapons and founded the Council for a Livable World to advocate for arms control. The cyclotron continues to be used for fundamental particle physics research and medical isotopes, influencing fields from astrophysics to medicine.
CHARGE PARTICLE ACCELERATORCharge particle acceleratorSYED SHAHEEN SHAH
A particle accelerator is a device that increases the kinetic energy of electrically charged particles through the use of electric and magnetic fields. The cyclotron, invented in 1931, is an early type of particle accelerator that uses a high frequency oscillator to accelerate positively charged particles in a spiral path between two "D-shaped" electrodes placed in a strong magnetic field. As the particles accelerate, they travel in larger circular paths until they exit and can be used for nuclear reaction experiments or medical treatments like cancer therapy.
A particle accelerator is a device that uses electromagnetic fields to accelerate charged particles to high speeds and contain them in well-defined beams. They can be used for purposes like radiotherapy, ion implantation, and industrial and biomedical research. The largest particle accelerators in the world are the RHIC, the LHC at CERN, and the Tevatron, which are used for experimental particle physics research. Particle accelerators can be divided into low-energy machines like cathode ray tubes and X-ray generators, and high-energy machines capable of nuclear reactions like the LHC, which smashes particles together at high speeds to study the origins of the universe.
A betatron is a device that accelerates electrons using an expanding magnetic field within a doughnut-shaped vacuum chamber. Electrons are injected into the chamber and accelerated as the magnetic field strength increases over time. This increasing magnetic flux induces an electric field that increases the electrons' energy, allowing them to gain extremely high speeds. The betatron condition requires that the rate of change of magnetic flux through the circular orbit equals 2π times the radius squared times the rate of change of the magnetic field, in order to maintain the electrons' constant orbital radius as they accelerate.
The document discusses particle accelerators and nuclear physics. It provides definitions of particle accelerators and describes their basic working principle of using electromagnetic fields to accelerate charged particles. It discusses different types of particle accelerators like linear accelerators, cyclotrons, synchrotrons and their components and working. The largest particle accelerators in the world, like the LHC and RHIC, are mentioned. Applications of particle accelerators discussed include uses in medicine, industry, DNA research and treating cancer.
The document summarizes the cyclotron, which accelerates charged particles. It was invented in 1934 by Lawrence and Livingston. A cyclotron uses a magnetic field to bend charged particles into a circular path between two "dees" where an alternating electric field accelerates the particles on each half-circle. As the particles' velocity and radius increase with each pass between the dees, their kinetic energy also increases until they exit the cyclotron. The cyclotron is still used today as the first stage of some large particle accelerators to produce very high energy particles for nuclear physics experiments requiring high-energy collisions.
Cyclotrons accelerate charged particles using oscillating electric fields generated between hollow metal chambers called dees. A positive ion is placed between the dees and accelerated toward the first dee when it is negatively charged. It follows a semicircular path due to a strong magnetic field until the dee polarities are reversed, accelerating it toward the second dee and to higher energies with each pass through the oscillating field. Cyclotrons can be used to accelerate ion beams for nuclear physics experiments and cancer treatment through proton therapy.
The document discusses cyclotrons, which are particle accelerators that use oscillating electric fields and strong magnetic fields to accelerate charged particles in a spiral path. It provides details on the construction and working principles of cyclotrons, including how particles gain energy through repeated passes between the dee electrodes. The summary also mentions some key uses of cyclotrons in nuclear physics research and medical applications like proton therapy for cancer treatment.
The document discusses synchrotrons, which are particle accelerators that produce very bright light for research. It describes how synchrotrons work, with electrons being emitted and accelerated through components like an electron gun, linear accelerator, booster ring, and storage ring. This produces intense electromagnetic waves called synchrotron light. Synchrotron light is much brighter than standard X-rays and allows scientists to observe molecular interactions. The document outlines some of the many applications of synchrotrons, such as in materials engineering, medical imaging and therapy, environmental research, and forensics.
This document appears to be a student project report on investigating the relationship between input/output voltage and number of turns in the primary and secondary coils of a transformer. It includes sections on introduction, theory, apparatus, procedure, observations, conclusion, and bibliography. The key points are that the output voltage of a transformer depends on the ratio of turns in the secondary coil to the primary coil, and that there are losses between the input and output resulting in the transformer's efficiency being less than 100%.
The document discusses disaster recovery for mission critical applications. It notes challenges in ensuring application availability with data growth and budget pressures, while meeting regulatory requirements. It discusses using replication, snapshots, and continuous data protection to reduce recovery point objectives (RPO) from hours to minutes or less. EMC provides integrated solutions using technologies like Data Domain, Avamar, RecoverPoint, and VPlex to automate backup, replication, and recovery for applications.
EMC presented an overview of SQL Server 2012 and how it can help organizations unlock insights from data, improve performance of mission critical applications, and create business solutions across on-premises and cloud environments. EMC positions itself as the leader in mission critical infrastructure and discusses how its storage solutions like VNX, VMAX, and FAST cache can boost the performance of SQL Server workloads by 3-4x while improving reliability, availability, backup speeds and reducing storage needs. The presentation provides best practices for optimizing SQL Server deployments and highlights EMC's management and data protection tools for SQL Server.
In this presentation we present EAGLE's ideas on designing a modern disaster recovery environment. Key concepts include balancing cost, risk and complexity in DR strategies. Most notably we'll cover recovery objectives, common DR technologies (that allow you to backup and pre-position data), and the importance of viewing DR as an insurance policy.
Designing a Modern Disaster Recovery EnvironmentBrian Anderson
In this presentation I presented EAGLE's ideas on designing a modern disaster recovery environment. Key concepts include balancing cost, risk and complexity in DR strategies. Most notably we'll cover recovery objectives, common DR technologies (that allow you to backup and pre-position data), and the importance of viewing DR as an insurance policy.
Continuous Availability for Private Database CloudsNoel Sidebotham
One important aspect of cloud computing is Availability; all Oracle solutions are built with availability in mind and Oracle provides a blueprint called the Maximum Availability Architecture and in this session we will look at the important aspects of this architecture and how you can achieve Continuous Availability for your private database cloud that extended to included non-oracle databases as well.
From this presentation you will learn about:
• The importance of Continuous Availability
• The Causes & Impact of Downtime
• Road map to building a flexible Maximum Availability Architecture
• Extending continuous availability to your non-Oracle databases
This document describes a webinar on real-life WebSocket case studies and demos that will feature speakers from Pythio and Kaazing. The webinar details include date, time, speaker information, and dial-in details. The document also includes an agenda that outlines presentations on Pythio's technology platform and use of WebSockets for real-time publishing of running event data.
This document summarizes a presentation about scale-out converged solutions for analytics. The presentation covers the history of analytic infrastructure, why scale-out converged solutions are beneficial, an analytic workflow enabled by EMC Isilon storage and Hadoop, test results showing performance benefits, customer use cases, and next steps. It includes an agenda, diagrams demonstrating analytic workflows, performance comparisons, and descriptions of enterprise features provided by using EMC Isilon with Hadoop.
Riverbed SteelFusion serves as the infrastructure for your rig or branch, significantly lowering capital and operational costs, mitigating the risk of rig/branch disasters, and improving IT’s responsiveness to the business.
- Slash IT costs by eliminating the need to purchase, maintain, and backup servers in branch offices
- Ensure business continuity and rapidly recover from disasters or interruptions
- Reduce data loss with near real-time synchronization of data to the datacenter
- Control data in the datacenter, removing sensitive information from high-risk locations
- Reduce branch administration costs by leveraging standardized datacenter policies and procedures
Sqlsat154 maintain your dbs with help from ola hallengrenAndy Galbraith
Ola Hallengren created a free database maintenance solution that automates common maintenance tasks like backups, integrity checks, and index optimization. The solution uses stored procedures that can be easily scheduled. It has options to configure maintenance settings and log output. Implementing the solution involves downloading a script, configuring settings, and scheduling the provided jobs.
This document discusses the successful migration of Oracle's Taleo Business Edition cloud service to Oracle Database 12c. It provides context on TBE's rapid growth necessitating a more robust database platform. It describes how Oracle 12c was well-suited for the migration due to its optimizations for multi-tenancy and cloud deployments. The document also outlines the transition lifecycle and lessons learned from the project.
The document discusses strategies for protecting data, including:
1. Implementing a well-defined data protection architecture using Oracle Database security controls and services like Data Safe to assess risks, discover sensitive data, and audit activities.
2. Using high availability technologies like Oracle Real Application Clusters and disaster recovery options like Data Guard and GoldenGate to ensure redundancy and meet recovery objectives.
3. Addressing challenges with traditional backup and restore approaches and the need for a new solution given critical failures and costs of $2.5M per year to correct.
Soyez plus flexibles avec la sauvegarde dans le cloud DPSRSD
EMC XCHANGE 2015
Christian LE CORRE
http://france.emc.com/data-protection/data-protection-suite/index.htm
http://france.emc.com/data-protection/data-protection-suite/index.htm
The presentation covers solutions from EMC to improve performance, increase data protection, enhance business continuity for your conventional SAP applications as well as SAP HANA.
From Measurement to Insight: Putting DevOps Metrics To WorkDevOps.com
The document discusses selecting metrics for DevOps processes. It outlines key metrics to measure for different stages including development, testing, deployment, release and operations. Examples of metrics include deployment frequency, lead time, change fail rate, and mean time to recovery. The document provides recommendations on where to start measuring for each stage and resources for further information on DevOps metrics.
The document discusses the challenges that companies face in managing cloud operations as cloud services grow larger, faster, and smarter. It notes that traditional IT operations are not equipped to handle the scale, speed, and complexity of the cloud. Automation and intelligent management tools are needed to gain control over virtual machine and cloud sprawl while improving efficiency, security, and cost management of cloud resources and services. The dynamic era of cloud computing requires convergence of operations and automation to keep up with rising usage, costs, and complexity.
In a world of business that has increasingly become more and more distributed, and with our relationship with data having changed, we need to begin expanding the way we look at innovation in IT from solely focusing on the data center, to considering the requirements, challenges and costs associated with the edge. This presentation focuses on extending data center investments to all remote sites, and new opportunities to connect IT with today's business requirements through a Software-Defined Edge.
The document provides an overview of a presentation given by Phyllis Doig of EMC Corporation on building the case for new technology projects. The presentation covers defining business requirements, analyzing solution options through a requirements matrix, and estimating costs and resources through templates. The goal is to provide a standardized, repeatable process for evaluating IT initiatives at EMC.
Enterprise Capacity Optimization - Capacity Management Over EverythingTeamQuest Corporation
Traditional performance analysis and capacity planning encompassed deep-dive, technology domain-specific metrics, tools and skillsets; limiting feasibility to only the largest, most critical enterprise resources. Optimizing today’s complex and dynamic environments with almost all resources dynamic and virtualized or cloud-based - requires a new process. Discover a flexible, automated and business service-aligned process. View real-world examples of businesses optimizing enterprise capacity by marrying existing technology, business, service, asset, financial, power and other metrics. This presentation was delivered at the Gartner IT Infrastructure & Operations Management Summit.
This document summarizes a webinar on MySQL architecture and design. The webinar covered causes and impacts of downtime, how to select the right high availability solution based on requirements, an overview of MySQL high availability solutions including replication, clustering, and third party options, and operational best practices. It also discussed new features in MySQL 5.6 that improve replication performance, failover, recovery, data integrity, and manageability.
Similar to Information Technology Particle Accelerator (20)
This template can be used as a starter file for presenting training materials in a group setting.SectionsRight-click on a slide to add sections. Sections can help to organize your slides or facilitate collaboration between multiple authors.NotesUse the Notes section for delivery notes or to provide additional details for the audience. View these notes in Presentation View during your presentation. Keep in mind the font size (important for accessibility, visibility, videotaping, and online production)Coordinated colors Pay particular attention to the graphs, charts, and text boxes.Consider that attendees will print in black and white or grayscale. Run a test print to make sure your colors work when printed in pure black and white and grayscale.Graphics, tables, and graphsKeep it simple: If possible, use consistent, non-distracting styles and colors.Label all graphs and tables.
Give a brief overview of the presentation. Describe the major focus of the presentation and why it is important.Introduce each of the major topics.To provide a road map for the audience, you can repeat this Overview slide throughout the presentation, highlighting the particular topic you will discuss next.
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This is another option for an Overview slide.
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Use a section header for each of the topics, so there is a clear transition to the audience.
Add slides to each topic section as necessary, including slides with tables, graphs, and images. See next section for sampletable, graph, image, and video layouts.
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