Data Center Bust & Boom

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Data Center Bust & Boom

June 16, 2026
mike@standardsmichigan.com
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"One day ladies will take their computers for walks in the park and tell each other, "My little computer said such a funny thing this morning" - Alan Turing

Data centers in colleges and universities are crucial for supporting the extensive technological infrastructure required for modern education and research. These centers house critical servers and storage systems that manage vast amounts of data, ensuring reliable access to academic resources, administrative applications, and communication networks. They enable the secure storage and processing of sensitive information, including student records, faculty research, and institutional data.

Uptime Institute Tier Classification

Moreover, data centers facilitate advanced research by providing the computational power needed for data-intensive studies in fields like bioinformatics, climate science, and artificial intelligence. They support virtual learning environments and online course management systems, essential for the increasingly prevalent hybrid and online education models. Efficient data centers also contribute to campus sustainability goals by optimizing energy use through modern, eco-friendly technologies.

ANSI/TIA 942 Data Center Infrastructure Standard

Additionally, robust data center infrastructure enhances the university’s ability to attract top-tier faculty and students by demonstrating a commitment to cutting-edge technology and resources. They also play a vital role in disaster recovery and business continuity, ensuring that educational and administrative functions can resume quickly after disruptions. Overall, data centers are integral to the academic mission, operational efficiency, and strategic growth of colleges and universities.

We have followed development of the technical standards that govern the success of these “installations” since 1993; sometimes nudging technical committees — NFPA, IEEE, ASHRAE, BICSI and UL.   The topic is vast and runs fast so today we will review, and perhaps respond to, the public consultations that are posted on a near-daily basis.  Use the login credentials at the upper right of our home page.

Related:

Ernst & Young LLP: Why there is no silver bullet for data center financing

Data Center Growth

Gallery: Supercomputers & Data Centers

Data Center Wiring

Datacenter Architecture

Power Management For Data Centers Challenges And Opportunities

Data Center Operations & Maintenance

Inauguration of New Supercomputer

Big Data Applications in Edge-Cloud Systems

Supercomputer Tour

Data Center Metrics

“What Happens When Data Centers Come to Town”

June 16, 2026
mike@standardsmichigan.com

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What Happens When Data Centers Come to Town

Terry Nguyen | BA Public Policy

Ben Green |Assistant Professor, School of Information and Gerald R. Ford School of Public Policy

Partner | Michigan Environmental Justice Coalition

Introduction. [Abstract].  The rapid growth of data centers, with their enormous energy and water demands, necessitates targeted policy interventions to mitigate environmental impacts and protect local communities. To address these issues, states with existing data center tax breaks should adopt sustainable growth policies for data centers, mandating energy audits, strict performance standards, and renewable energy integration, while also requiring transparency in energy usage reporting. “Renewable energy additionality” clauses should ensure data centers contribute to new renewable capacity rather than relying on existing resources.  If these measures prove insufficient, states should consider repealing tax breaks to slow unsustainable data center growth. States without tax breaks should avoid such incentives altogether while simultaneously implementing mandatory reporting requirements to hold data centers accountable for their environmental impact. Broader measures should include protecting local tax revenues for schools, regulating utility rate hikes to prevent cost-shifting to consumers, and aligning data center energy demands with state climate goals to avoid prolonging reliance on fossil fuels.

Related:

Sharan Kalwani (Chair, Southeast Michigan Section IEEE): AI and Data Center Demand

Gallery: Other Ways of Knowing Climate Change

 

2029 National Electrical Code Panel 3

June 16, 2026
mike@standardsmichigan.com
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Electrical Safety Catalog

2029 Revision Calendar

 

Articles covered by CMP-3:

Article 206
Non-Power-Limited Remote-Control and Signaling Circuits | Article 300
General Requirements for Wiring Methods and Materials | Article 335
Instrumentation Tray Cable — formerly Article 727 | Article 720
Limited-Energy System Installations | Article 721
Limited-Energy Power Sources | Article 722
Limited-Energy Cables |  Article 723
Raceways, Cable Routing Assemblies, and Cable Trays for Limited-Energy Systems | Article 724
Class 1 Power-Limited Remote-Control and Signaling Circuits | Article 725
Class 2 and Class 3 Power-Limited Circuits | Article 726
Class 4 Fault-Managed Power Systems | Article 728
Fire-Resistive Cable Systems | Article 760
Fire Alarm Systems | Article 772
Chapter 9 Tables
Ω

2029 Public Input Submittals CMP-3

N.B.  Public Input No. 2633-NFPA 70-2026 [ Global Input ]  PDF Page 6, regarding re-organization of the NEC into below 1000 V and above 1000 V.  

Noteworthy proposal concepts:

  1. Cable trays interfering with HVAC ductwork and fire sprinkler lines.  Parallel cable tray feasibility
  2. Difficulty accessing lighting fixtures and fire alarm components for maintenance.
  3. Potential violation of plenum clearance and airflow requirements.  Some cable trays in plenums reportedly contain non-plenum-rated cables, which is a fire code violation.
  4. Document flags this as a high-priority remediation item before any LED lighting retrofit proceeds.
  5. Existing security wiring (CCTV, access control, intrusion detection) is a mix of old analog coax and early Cat 5 cables.
  6. Many runs exceed recommended length for reliable video transmission.  Frequent signal degradation and reliability complaints.
  7. Security cables are sharing overcrowded cable trays with power-limited lighting control wires and fire alarm cabling.
  8. Risk of electromagnetic interference (EMI) noted due to proximity to higher-voltage lines.
  9. Plenum space constraints make it difficult to add new IP-based security cameras without major reorganization.
  10. Current security wiring cannot support newer high-resolution IP cameras or PoE+ powered devices.
  11. Several editorial proposals by Mike Holt. (He’s generally correct on clarity improvements that he needs for educational purposes)
Ω
For discussion next meeting, when we march through all proposals of interest to IEEE:
  • When electricians work in ceiling plenums above hallways while students pass below, several serious hazards emerge. Tools, screws, cable scraps, or ceiling tiles can fall, causing head injuries or slips. Disturbed dust, fiberglass, or potential asbestos particles may rain down, creating respiratory risks.
  • Live electrical work on lighting or cable trays raises shock/fire dangers if a fault occurs or debris shorts circuits. Open plenums can compromise fire-rated barriers, allowing smoke or flames to spread rapidly in an emergency.
  • Noise and visual distractions increase trip hazards for students. Without full barricades, lockout/tagout, and proper fall protection, these overhead activities expose young people to preventable injury. Scheduling work after hours or using full corridor closures is essential.
  • Power-limited (Class 2) cabling operates at low voltage (<60V DC) with current/power caps (~100VA), dramatically reducing shock and fire risks. Installation is simpler and cheaper—no conduit or heavy mechanical protection needed in many cases, allowing flexible routing. LEDs run cooler and more efficiently with remote drivers, improving lifespan and energy savings. Easier maintenance and safer for retrofits.
  • Severe distance and power limits due to voltage drop and 100W/5A caps require multiple drivers or shorter runs. Higher upfront costs for specialized power supplies. Potential reliability issues from more connection points. Less suitable for high-power or long-distance applications compared to line-voltage wiring.

April 29, 2026

 

At the request of IEEE Joint IAS/PES Standards Michigan, Mike Anthony moved to CMP-3 from CMP-15.

Articles Under CMP 3

  • Article 300 — General Requirements for Wiring Methods and Materials
  • Article 335 — Instrumentation Tray Cable (in some references for the 2029 cycle)
  • Article 590 — Temporary Installations (being relocated/renumbered in the 2026 cycle, e.g., potentially to Article 140 in Chapter 1, as temporary wiring is not treated as a special occupancy)
  • Article 720 — Limited-Energy System Installations (new/general article covering wiring methods for limited-energy systems)
  • Article 721 — Limited-Energy Power Sources
  • Article 722 — Limited-Energy Cable (covers cables for power-limited, fault-managed, etc.)
  • Article 723 — Raceways, Cable Routing Assemblies, and Cable Trays for Limited-Energy Systems (newly created in the 2026 cycle)
  • Article 725 — Class 2 and Class 3 Remote-Control, Signaling, and Power-Limited Circuits
  • Article 726 — Class 4 Fault-Managed Power Circuits and Equipment
  • Article 727 — Instrumentation Tray Cable
  • Article 728 — Fire-Resistive Cable Systems
  • Article 760 — Fire Alarm Systems (power-limited and non-power-limited portions)

CMP 3 also handles associated content in: Chapter 9 — Tables, including Tables 11(A) & (B) and Tables 12(A) & (B) (related to conductor properties and other supporting tables for the above topics).

  • Notes on Changes and Scope
    CMP 3 focuses on general wiring rules, cable types, raceways/trays for low-energy applications, and signaling/communications-related wiring (distinct from higher-power utilization equipment or special occupancies handled by other panels).
  • In the 2026 NEC cycle, there has been significant reorganization of Chapter 7 to consolidate limited-energy systems under articles like 720–726 (and related ones), moving away from older structures. This includes new articles for raceways/cable trays specific to limited-energy systems and adjustments to scopes for clarity.
  • Article 206 (Non-Power-Limited Remote-Control and Signaling Circuits) appears in some 2026-related references as newly designated or relocated material handled in this area.
    Temporary installations (Article 590) are transitioning out of “special” categories in restructuring efforts.

During today’s sessions of the IEEE E&H Committee and our own we will prepare draft proposals relevant to the safety and sustainability agenda of the USA education facility industry.  Use the login credentials at the upper right of our home page.

 

Brown University Electrical Design Criteria | Information Technology Resources Policy

Posted December 20, 2025

The University of Michigan has supported the voice of the United States education facility industry since 1993 — the second longest tenure of any voice in the United States.  That voice has survived several organizational changes but remains intact and will continue its Safer-Simpler-Lower Cost-Longer Lasting priorities on Code Panel 3 in the 2029 Edition.

Today, during our customary “Open Door” teleconference we will examine the technical concepts under the purview of Code Panel 3; among them:

Article 206 Signaling Circuits

Article 300 General Requirements for Wiring Methods and Materials

Article 335 Instrumentation Tray Cable

Article 590 Temporary Installations

Chapter 7 Large sections of limited energy cabling for signaling and information technology

Chapter 9 Conductor Properties Tables 11A & B, Tables 12A&B

Public Input on the 2029 Edition will be received until April 9, 2026.

Related:
  • Since the lifespan of educational buildings make the building core and shell susceptible to multiple changes not typically associated with commercial buildings, additional pathways should be placed in areas where the core and shell components of the facility are likely to re-main for extended periods of time
  • It is recommended that all areas of an educational building have wireless coverage unless prohibited

Communication in the Presence of Noise

June 16, 2026
mike@standardsmichigan.com

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Communication in the Presence of Noise

Claude E. Shannon

University of Michigan – Bell Telephone Laboratories – Massachusetts Institute of Technology

Abstract. A method is developed for representing any communication system geometrically. Messages and the corresponding signals are points in two “function spaces,” and the modulation process is a mapping of one space into the other. Using this representation, a number of results in communication theory are deduced concerning expansion and compression of bandwidth and the threshold effect. Formulas are found for the maximum rate of transmission of binary digits over a system when the signal is perturbed by various types of noise. Some of the properties of “ideal” systems which transmit at this maxmum rate are discussed. The equivalent number of binary digits per second for certain information sources is calculated.

CLICK HERE to order complete paper

 

“Whatever It Is, I’m Against It”

June 16, 2026
mike@standardsmichigan.com
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How Stupid Would It Be to Put Data Centers in Space? 

Riding the orbital data center wave

SpaceX and Google Are in Talks to Launch Data Centers in Orbit

 

International Zoning Code

Electricity

Electric Service Metering & Billing

Natural Gas

Natural Gas Transmission & Distribution

Traffic

7th Edition (2018): Geometric Design of Highways & Streets

Water

Standards March: Water

Noise

“Backup” Power Systems

Taxation

Tax-Free Bonds

Security

Secure perimeter management

 

Relata:

Dr. Gad Saad Named Global Ambassador for The Northwood Idea and Visiting Professor

Gad Saad (Northwood University Michigan) & Jordan Peterson (University of Toronto) discuss the intellectual intransigence in education settlements

The $7 Billion Stargate “Barn”

Catfish

June 15, 2026
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Standards Mississippi

 

Extension Service Report on Catfish

 

Mississippi State University Facilities Management

 

Intellectual Property

June 15, 2026
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It is impossible to overestimate the sensitivity of this topic but poke at it, we will.  At the moment, the less written here; the better.   Much of this domain is outside our wheelhouse; though it has settled on a few first principles regarding patents, trademarks and copyrights relevant to the user-interest we describe in our ABOUT.

Many large research universities have a watchdog guarding its intellectual property and trying to generate income from it, and; of course, for branding.  We will dwell on salient characteristics of the intellectual property domain with which we reckon daily — highlighting the market actors and the standards they have agreed upon.

Additionally, technical standards developers are generally protected by copyright law, as the standards they create are typically considered original works of authorship that are subject to copyright protection.  In the United States, the Copyright Act of 1976 provides copyright protection for original works of authorship, which includes technical standards. This means that the developers of technical standards have the exclusive right to reproduce, distribute, and create derivative works based on their standards, and others must obtain permission or a license to use or reproduce the standards.  

Some technical standards may be subject to certain exemptions or limitations under copyright law.  In the United States, there is a doctrine called “fair use” that allows for limited use of copyrighted works for purposes such as criticism, comment, news reporting, teaching, scholarship, or research, without the need for permission or a license from the copyright owner.  Almost everything we do at Standards Michigan falls under the fair use doctrine.  This is why we have no search feature and most pages are protected.  If we err in this; let us know.  

Innovation management

Why The U.S. And China Fight Over IP

For Every Lawyer, There is an Equal and Opposite Lawyer

Free Speech and Innovation

More

  1. Patent Act: This is the primary federal law governing patents in the United States. It sets forth the requirements for obtaining a patent, the rights of patent owners, and the remedies available for infringement.
  2. The Sherman Antitrust Act of 1890 and the Clayton Antitrust Act of 1914 prohibit anticompetitive behavior in the marketplace, including the use of codes and standards to exclude competition.
  3. Title 37 of the Code of Federal Regulations: This contains the rules and procedures related to patents, including rules governing the filing and examination of patent applications.
  4. America Invents Act: This is a major overhaul of the U.S. patent system that was enacted in 2011. It includes provisions such as the transition to a “first-inventor-to-file” system and the creation of new post-grant review procedures for challenging the validity of patents.
  5. Manual of Patent Examining Procedure: This is a guidebook for patent examiners that provides detailed information on the rules and procedures for examining patent applications.
  6. Everett Rogers: Diffusion of innovations
  7. Copyright Law of the United States (Title 17)

 

Protection of Intellectual Property in the Supply Chain

ASTM International Intellectual Property Policy

Healthcare Standards Institute IP Policy

International Code Council Copyright Protection

IEEE Patent Policy

NFPA Regulations and Policies

Underwriters Laboratory Patent Policy

 

Intellectual Property 101

Innovation – Market Acceptance – Standardization – Human Right

2026 National Patent Application Drafting Competition (Results)

June 15, 2026
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The NPADC is a team competition for law students to develop skills in drafting patent applications, focusing on U.S. patent law. Teams receive a hypothetical invention statement, conduct prior art searches, draft specifications and claims, and present their work to judges, including patent examiners and practitioners. For 2025, the invention was an extra-uterine system for supporting premature fetuses, indicating the complexity of tasks involved

There is no publicly available timetable for the 2027 National Patent Application Drafting Competition (NPADC) from the United States Patent and Trademark Office (USPTO) as of the latest available information. The USPTO typically releases detailed schedules for the NPADC closer to the competition year, often in the fall of the preceding year (e.g., October or November 2025 for the 2026 competition).

 

Thomas Jefferson was the leader in founding the United States Patent Office. Jefferson was a strong supporter of the patent system and believed that it was essential for promoting innovation and progress in the United States. As the first Secretary of State Jefferson was responsible for implementing the country’s patent system.

Article I, Section 8, Clause 8 of the United States Constitution reads as follows:

“The Congress shall have Power To promote the Progress of Science and useful Arts, by securing for limited Times to Authors and Inventors the exclusive Right to their respective Writings and Discoveries.”

In 1790, Jefferson drafted the first Patent Act, which established the procedures for applying for and granting patents. The act also created the United States Patent Office as a government agency to oversee the patent system. Jefferson appointed the first Patent Board, which was responsible for reviewing patent applications and making recommendations to the Secretary of State.

Jefferson was deeply involved in the early development of the Patent Office and was instrumental in shaping its policies and procedures. He believed that the patent system should be accessible to all inventors, regardless of their social or economic status, and he worked to streamline the patent application process to make it more efficient and user-friendly.

In recognition of his contributions to the development of the patent system, Jefferson is often referred to as the “Father of American Innovation.”

This clause grants Congress the authority to establish a system of patents and copyrights to protect the intellectual property of inventors and authors. The purpose of this system is to encourage innovation and creativity by providing inventors and authors with a temporary monopoly on their creations, allowing them to profit from their work and invest in future projects. The clause also emphasizes the importance of promoting the progress of science and the useful arts, reflecting the belief of the founders that the development of new technologies and inventions was essential for the growth and prosperity of the United States.

Over the years, the Patent Office has played a crucial role in the development of the United States as a technological leader, granting patents for inventions ranging from the telephone and the light bulb to the airplane and the computer. Today, the Patent Office is part of the United States Department of Commerce and is responsible for examining patent applications and issuing patents to inventors and companies.

Welcome to the 2025 National Patent Application Drafting Competition!

2024 National Patent Application Drafting Competition

Abiit sed non oblitus | Concordia

June 15, 2026
mike@standardsmichigan.com
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Change is good: Highlighting 10 years of improvements on the CUAA campus

The Common Cup

University Lutheran Chapel

“Whatever It Is, I’m Against It”

 

Map of the Huron River watershed, Michigan | Wikpedia

The Board of Regents acquisition of the 140-acre Geddes Road landmass of the former Concordia University later this month will give it shoreline on a major Southeastern Michigan river system and, 104 miles downstream the Huron River Water Trail, direct access to Lake Erie.

Relata:

Abiit sed non oblitus | Lenawee County Michigan

Abiit sed non oblitus | Houghton County Michigan

 

 

Sport News

June 15, 2026
mike@standardsmichigan.com
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“Man’s life is brief, but through contests he touches the eternal.”

— Pindar, ‘Nemean Ode 6.23-24’

Michigan State University | Ingham County

Rocky Mountain Intercollegiate Skiing Association

College Bowl Games

Fernando Mendoza’s post game interview after winning the Big Ten
byu/justletmeregisteryou insports

 

 

 



Michigan Girl, Our Michigan Girl….

Sport Standards

 

 

Mixed Gender Sport by Design

Engineering in Sport



“Rowing is more poetry than sport.” — George Pocock (‘Boys in the Boat’ 2024), a British-born boat builder, rowing coach, and influential figure in American rowing, best known for his craftsmanship of racing shells and his philosophical approach to the sport.

Winter Sport

“There is no greater glory for a man than that which he wins with his own hands and feet.” (Homer, Iliad c. 8th Century BCE)

 

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