�ݺ�ߣshows by User: StevenShapiroPEATD

�ݺ�ߣshows by User: StevenShapiroPEATD / http://www.slideshare.net/images/logo.gif �ݺ�ߣshows by User: StevenShapiroPEATD / Wed, 13 Mar 2013 18:10:49 GMT �ݺ�ߣShare feed for �ݺ�ߣshows by User: StevenShapiroPEATD Risk Assessments and Reliability, What You Need To Know /slideshow/risk-assessments-and-reliability-what-you-need-to-know/17179913 riskassessmentandreliabilityafcommhmc20130307-130313181049-phpapp01
By the end of this presentation the attendees will understand the need for an Infrastructure Reliability and Risk Assessment for their critical environment as well as what types of systems should be included in the evaluation, how the evaluation should be performed to ensure tangible results, how it should be reported and ultimately how to interpret and utilize the information presented in the assessment to their advantage. Presentation Outline 1. What is an Infrastructure Reliability and Risk Assessment and what do I need one for? 2. Who should perform an Infrastructure Reliability and Risk Assessment. 3. What information should be included in an Infrastructure Reliability and Risk Assessment. 4. What building systems should be included. This will be an infrastructure system by system approach. 5. What are the key things to look for when my study is complete? A. Reliability Level. B. Single Points of Failure within Critical Systems. C. Redundancy of Critical Systems. D. System Integration. E. Adequacy of Engineered Systems (Exhaust Points). F. Adequacy of Operations, Maintenance and Testing Programs. G. Benchmark Findings with Industry Standards. 6. Availability, MTBF Calculations and Probability of Failure Calculations. What are they, who does them, what do they mean? 7. Computational fluid dynamic modeling. 8. How long should a study like this take? 9. Review of a sample study. ]]>
By the end of this presentation the attendees will understand the need for an Infrastructure Reliability and Risk Assessment for their critical environment as well as what types of systems should be included in the evaluation, how the evaluation should be performed to ensure tangible results, how it should be reported and ultimately how to interpret and utilize the information presented in the assessment to their advantage. Presentation Outline 1. What is an Infrastructure Reliability and Risk Assessment and what do I need one for? 2. Who should perform an Infrastructure Reliability and Risk Assessment. 3. What information should be included in an Infrastructure Reliability and Risk Assessment. 4. What building systems should be included. This will be an infrastructure system by system approach. 5. What are the key things to look for when my study is complete? A. Reliability Level. B. Single Points of Failure within Critical Systems. C. Redundancy of Critical Systems. D. System Integration. E. Adequacy of Engineered Systems (Exhaust Points). F. Adequacy of Operations, Maintenance and Testing Programs. G. Benchmark Findings with Industry Standards. 6. Availability, MTBF Calculations and Probability of Failure Calculations. What are they, who does them, what do they mean? 7. Computational fluid dynamic modeling. 8. How long should a study like this take? 9. Review of a sample study. ]]> Wed, 13 Mar 2013 18:10:49 GMT /slideshow/risk-assessments-and-reliability-what-you-need-to-know/17179913 StevenShapiroPEATD@slideshare.net(StevenShapiroPEATD) Risk Assessments and Reliability, What You Need To Know StevenShapiroPEATD By the end of this presentation the attendees will understand the need for an Infrastructure Reliability and Risk Assessment for their critical environment as well as what types of systems should be included in the evaluation, how the evaluation should be performed to ensure tangible results, how it should be reported and ultimately how to interpret and utilize the information presented in the assessment to their advantage. Presentation Outline 1. What is an Infrastructure Reliability and Risk Assessment and what do I need one for? 2. Who should perform an Infrastructure Reliability and Risk Assessment. 3. What information should be included in an Infrastructure Reliability and Risk Assessment. 4. What building systems should be included. This will be an infrastructure system by system approach. 5. What are the key things to look for when my study is complete? A. Reliability Level. B. Single Points of Failure within Critical Systems. C. Redundancy of Critical Systems. D. System Integration. E. Adequacy of Engineered Systems (Exhaust Points). F. Adequacy of Operations, Maintenance and Testing Programs. G. Benchmark Findings with Industry Standards. 6. Availability, MTBF Calculations and Probability of Failure Calculations. What are they, who does them, what do they mean? 7. Computational fluid dynamic modeling. 8. How long should a study like this take? 9. Review of a sample study. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/riskassessmentandreliabilityafcommhmc20130307-130313181049-phpapp01-thumbnail.jpg?width=120&height=120&fit=bounds" /><br> By the end of this presentation the attendees will understand the need for an Infrastructure Reliability and Risk Assessment for their critical environment as well as what types of systems should be included in the evaluation, how the evaluation should be performed to ensure tangible results, how it should be reported and ultimately how to interpret and utilize the information presented in the assessment to their advantage. Presentation Outline 1. What is an Infrastructure Reliability and Risk Assessment and what do I need one for? 2. Who should perform an Infrastructure Reliability and Risk Assessment. 3. What information should be included in an Infrastructure Reliability and Risk Assessment. 4. What building systems should be included. This will be an infrastructure system by system approach. 5. What are the key things to look for when my study is complete? A. Reliability Level. B. Single Points of Failure within Critical Systems. C. Redundancy of Critical Systems. D. System Integration. E. Adequacy of Engineered Systems (Exhaust Points). F. Adequacy of Operations, Maintenance and Testing Programs. G. Benchmark Findings with Industry Standards. 6. Availability, MTBF Calculations and Probability of Failure Calculations. What are they, who does them, what do they mean? 7. Computational fluid dynamic modeling. 8. How long should a study like this take? 9. Review of a sample study.

Risk Assessments and Reliability, What You Need To Know from Steven Shapiro, PE, ATD

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0 Data Center Trends - Power and Cooling /slideshow/data-center-trends-power-and-cooling/17179871 datacentertrends-mhmcrts20130214-130313180844-phpapp01
Data Center Trends - Power and Cooling Learn about the newest data center IT power and cooling trends as they relate to facility infrastructure. Energy efficiency, facility maintainability and reliability will be addressed while providing insight into the data center facility cooling and power technologies.]]>
Data Center Trends - Power and Cooling Learn about the newest data center IT power and cooling trends as they relate to facility infrastructure. Energy efficiency, facility maintainability and reliability will be addressed while providing insight into the data center facility cooling and power technologies.]]> Wed, 13 Mar 2013 18:08:44 GMT /slideshow/data-center-trends-power-and-cooling/17179871 StevenShapiroPEATD@slideshare.net(StevenShapiroPEATD) Data Center Trends - Power and Cooling StevenShapiroPEATD Data Center Trends - Power and Cooling Learn about the newest data center IT power and cooling trends as they relate to facility infrastructure. Energy efficiency, facility maintainability and reliability will be addressed while providing insight into the data center facility cooling and power technologies. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/datacentertrends-mhmcrts20130214-130313180844-phpapp01-thumbnail.jpg?width=120&height=120&fit=bounds" /><br> Data Center Trends - Power and Cooling Learn about the newest data center IT power and cooling trends as they relate to facility infrastructure. Energy efficiency, facility maintainability and reliability will be addressed while providing insight into the data center facility cooling and power technologies.

Data Center Trends - Power and Cooling from Steven Shapiro, PE, ATD

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0 https://cdn.slidesharecdn.com/profile-photo-StevenShapiroPEATD-48x48.jpg?cb=1526052564 Electrical Engineer specializing in the evaluation, design, construction, commissioning and maintenance of computer facilities and other critical facility infrastructure. http://www.morrisonhershfield.com https://cdn.slidesharecdn.com/ss_thumbnails/riskassessmentandreliabilityafcommhmc20130307-130313181049-phpapp01-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/risk-assessments-and-reliability-what-you-need-to-know/17179913 Risk Assessments and R... https://cdn.slidesharecdn.com/ss_thumbnails/datacentertrends-mhmcrts20130214-130313180844-phpapp01-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/data-center-trends-power-and-cooling/17179871 Data Center Trends - P...