Before creating new technologies, we must think about how to create the right values to be also able to sell it. All the technology that is required for “Industry 4.0” is available today already, so in fact Industry 4.0 can be seen more than an innovation driver for new businesses that are not exploited today, than an innovation driver for technology. If these existing technologies are assembled properly together and combined with the right business models, there is really good chance to profit from Industry 4.0.
This white paper looks into the ways one can profit from Industry 4.0 by differentiating through new business models.
While many OEMs are aware of new technologies to make machines more energy-efficient, they are reluctant to make changes due to the perception that it will make their machines more expensive to sell. The constraints of cost reduction, usage of resources and energy reduction are becoming key drivers in the industry as consumers require manufacturers to be more “green”. This paper demonstrates how incorporating sustainable design can add value to their machines and differentiate OEMs from the competition.
Wireless technology is increasingly used in machine safety applications. New solutions introduce mobility and offer higher levels of flexibility and safety for plant floor operators. This eBook explores how modern wireless implementations can increase user safety and mobility, reduce installation costs, and boost productivity.
The challenges facing industrial companies grow more daunting by the day. Globalization, energy markets that change in real time, variations in materials and prices, aging of the industrial workforce, inability to attract the next generation of Talent, and difficult regulatory pressures have all contributed to an extremely stressful industrial business environment. Fortunately, the right automation system can now offer cutting-edge packaging solutions for meeting at least three of these challenges.
Published By: MacroAir
Published Date: Apr 26, 2018
Large industrial facilities such as warehouses and manufacturing plants present a huge operational challenge because of their size. With extremely tall ceilings and a lot of square footage to cool or heat, keeping occupants comfortable is difficult. The solution: MacroAir big industrial ceiling fans. MacroAir large industrial fans create a more comfortable climate and reduce energy costs for large industrial facilities.
MacroAir invented the large industrial ceiling fan in 1998 to deliver a cost-effective climate control solution by generating large amounts of airflow. MacroAir’s big industrial fans produce a cooling effect, help control the effects of humidity, and can also help conserve heat in colder months by pushing warm air that is trapped at the ceiling toward the walls and down to the floor at occupant level.
MacroAir big industrial ceiling fans create an environment where employee’s feel comfortable, which results in increased productivity and improved industrial operations.
The average computer room today has cooling capacity that is nearly four times the IT heat load. Using data from 45 sites reviewed by Upsite Technologies, this white paper will show how you can calculate, benchmark, interpret, and benefit from a simple and practical metric called the Cooling Capacity Factor (CCF).
Calculating the CCF is the quickest and easiest way
to determine cooling infrastructure utilization and
potential gains to be realized by AFM improvements.
Electric vehicle technology touches all areas of the utility business, including IT, forecasters and grid operations. The growth of IoT-connected devices, both in the utility-owned grid and customer-owned smart energy apps, makes this a rich field for innovation. But what analytics infrastructure is needed in order to manage the future demand coming from EVs? And what opportunities and risks do EVs present?
This white paper from Navigant Research, sponsored by SAS and Intel, explores the analytics infrastructure that utilities need to prepare for and benefit from the growth of EVs.
Ensuring the reliability and efficiency of your data center operations requires a strategic partner that is qualified to minimize energy usage, reduce costs, and optimize space utilization, helping you meet critical business initiatives.
In the broadening data center cost-saving and energy efficiency discussion, data center physical infrastructure preventive maintenance (PM) is sometimes neglected as an important tool for controlling TCO and downtime. PM is performed specifically to prevent faults from occurring. IT and facilities managers can improve systems uptime through a better understanding of PM best practices.
Building on 25 years of server market leadership, the HPE ProLiant Gen9 portfolio—which includes HPE OneView software for simplified, converged management—offers optimal performance, increased storage, reduced energy consumption, and greater visibility and control across IT environments. Now everyone from enterprises to small and medium businesses (SMBs) can lower the cost of IT services, reduce delivery times, and improve their overall performance to gain a competitive edge. Download this white paper to learn more about the HPE ProLiant Gen9 portfolio.
Today’s data centers are expected to deploy, manage, and report on different tiers of business applications, databases, virtual workloads, home
directories, and file sharing simultaneously. They also need to co-locate multiple systems while sharing power and energy. This is true for large as
well as small environments. The trend in modern IT is to consolidate as much as possible to minimize cost and maximize efficiency of data
centers and branch offices. HPE 3PAR StoreServ is highly efficient, flash-optimized storage engineered for the true convergence of block, file,
and object access to help consolidate diverse workloads efficiently. HPE 3PAR OS and converged controllers incorporate multiprotocol support
into the heart of the system architecture
This white paper presents IDC’s analysis of the business value organizations are achieving by using Cisco UCS as a platform for SAP HANA and other SAP Business Suite applications. This analysis is based on IDC’s interviews with 12 Cisco UCS customers. These organizations are all relatively large organizations (1,500–85,000 employees), with an average of 25,383 employees. Interviewees represent a variety of industries: natural resources, agriculture, energy, government, automotive, retail, food and beverage, distribution, technology, healthcare, and IT. These organizations are based in the United States, EMEA, Mexico, and Brazil.
Cisco engaged Miercom to conduct a competitive analysis of its Catalyst 2960-X switch versus two comparable Hewlett-Packard switches from the 2920 and 5120 product families. Miercom executed comprehensive hands-on testing and evaluated the performance of some widely deployed features that are critical for reliable functioning of enterprise networks. The test methodology focused on specific areas in which Cisco believed there were key competitive differentiators between the products. Test results validated include throughput, latency, energy efficiency, stacking, LACP load balancing and Quality of Services (QoS) performance. Miercom found that the Cisco Catalyst 2960-X demonstrated superior performances against the competitive switches in the tests featured in this report.
For many of us, the term “smart city” conjures up images of sensors
collecting data about everything from traffic patterns to energy use.
It’s common for government leaders to think, “That’s not for us.
We’re not there yet.” But if your organization is collecting data of any
kind, you are in a position to use that data to create a smarter city for
Download this whitepaper for 10 examples of analytics being used to solve problems or simplify tasks for government organizations.
Cisco Catalyst 2960-X and -XR Series Switches earned the Miercom Certified Green Award for saving over 50% in annual energy operating costs compared to the industry average. The switches were evaluated in accordance with the Miercom Certified Green Testing Methodology. Test results show the benefits of Cisco Catalyst 2960-X and -XR Series Switches.
Ensures IT can drive success in the future AEW Energie can now be confident that it has the IT to support new developments. With energy demands increasing and authorities applying pressure for cleaner energy production, companies such as AEW Energie continue to look for ways to solve those challenges. AEW Energie now has a reliable and efficient IT infrastructure that helps support innovation in the firm’s efforts to find the right solutions and meet the needs of multiple stakeholders.
This IDC white paper examines the IoT imperative for companies in the ENR industry. We highlight IoT scenarios now and in the future, that illustrate how the integration of “things” with data and processes can generate value for ENR companies.
ARM had an immediate need for a flexible provider that was willing to collaborate on a “build-to-suit” energy efficient data center, but also want a long-term partner to consider for future projects in other parts of the world. Find out why they chose Digital Realty.
We expend so much energy trying to make each minute count in many areas of our life – why wouldn’t we take the same approach to our computing experience? Time stuck waiting on a system could be better spent solving problems, working, or even playing. Download this research study to learn more about how you could be saving time that is lost on slow end user computing systems. Find out how Intel® Optane™ memory with Dell OptiPlex 7050 Micro provides a simple way to improve system responsiveness in several key areas to give users a way to reclaim precious time and become more efficient.
Managing payroll in-house can be challenging to maintain for growing businesses. Fortunately, you can free up a lot of time,
energy, and resources by letting a provider handle it. Find out why you should outsource with these top-5 reasons
To maintain its position at the forefront of international research, the Institute for Computational Cosmology at Durham University wanted to develop a new high-performance computing cluster - find out how they did it.