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Simplify your Datacenter, Lower Your Costs, and Prepare for the Cloud

Heathcare providers are under pressure to further reduce costs, offer new capabilities, and explore Cloud options for the future. These pressures require that we revisit the design assumptions of the on premise datacenter to lower costs, reduce complexity, and add capabilities. The platform required to deliver new capabilities and lower the total cost of on premise infrastructure exists today in the Software Defined Datacenter, and customers are adopting it to meet current demands and prepare for the future.

Present Healthcare Pressures

  • New capabilities are required e.g. mobility and enhanced security.
  • Meaningful Use Stage 3 will put further pressure on providers to control costs in all areas of the business.
  • IT spend represents 3-8% of Revenue for a Hospital or Healthcare System.
  • CIOs at CHIME have for two years told us that they want to exit the datacenter business in three to seven years.
  • Fully migrating to Cloud will take two to five years for the most committed organizations.
  • The current standard datacenter architecture is complex and expensive.

Optimizing On Premise Infrastructure

SDDC SimplicityControlling IT spend is a priority of every Healthcare system and Hospital. Infrastructure and Staff represent significant portions of that budget, and there are significant opportunities to improve the scale of staff while reducing the complexity and cost of the infrastructure via SDDC. Organizations that are embracing the new technologies are realizing savings in all areas of their infrastructure: Storage, Compute, and Networking, and in so doing they are ensuring their competitive strength relative to Public Cloud alternatives.

Complexity is an oft overlooked reality of the current datacenter design. Simplicity is the key to steady operations: reducing the number of moving parts inherently increases the reliability of a system. Application operation requires a delicate confluence of Compute, FibreChannel, Networking, and Storage. These components come from multiple vendors, scale independently, are managed and monitored separately, yet all must work together. This is very difficult to architect, manage, and troubleshoot effectively and overworks a lot of experienced personnel.


Infrastructure Cost DistributionStorage presently represents roughly 50% of the annual Infrastructure spend in Healthcare. New software storage solutions deliver the same performance and reduce Storage spend by 30-60%. In a recent Healthcare customer project, they were able to realize a 50% savings on storage while gaining additional compute nodes using software defined storage.

The current virtualization standard of distributed compute nodes backed by a highly resilient and available storage array was a necessary stage in the evolution of the datacenter because of the nature of the workloads: they are special and many cannot be made effectively resilient at the application level, so we rely on the infrastructure layer to deliver the availability. The storage array was the way to do this, and it required the expansion of yet another infrastructure element, the FibreChannel SAN.

By leveraging virtual storage in the compute nodes, significant capital and operating savings are being realized, and due to persistent cost pressures and sound business decision making, it is an emerging standard for efficient on premise architecture.


Compute represents another significant chunk of infrastructure spend, roughly 15-25%. Blades have emerged as the popular option, but it is essential to revisit the reason. It isn’t rack space, host identity management, or any other vendor-specific capability. Blades deliver savings on FibreChannel ports to connect the systems to the storage. There are not significant efficiencies gained from Blades in any other aspect, except as affect the ease of connecting them with FC storage. But what happens if the new storage models do not require FC? The fundamental value proposition of blade architecture erodes and vanishes in favor of lower cost, equivalent capability from rack systems with local disk and software defined storage.

The premier Blade compute vendors are commanding a great deal of spend, but they are not delivering value commensurate with that spend, especially in the face of new distributed storage capabilities that they are not optimal to deliver. Rack mount systems offer greater capability and flexibility for less, and all they need to operate and deliver the same outcomes as current SAN attached designs is power and networking.

Appliance Compute

Appliance Compute merits a thorough discussion as well. Reducing complexity and cost while adding capability is a challenge, and both ends can be achieved easily via the EVO platform. The EVO platform is a reference hardware architecture with fewer interchangeable parts. We have seen an increase in host instability due to hardware in the last two years. Ever expanding combinations of firmware, storage controllers, network adapters, and drivers have created a hardware ecosystem so large that it is difficult for hardware vendors to test all permutations and combinations of the components. The solution is simple: reference architecture with fewer variables and greater consistency.

EVO rack systems offer everything in one box: Compute, Storage, and Networking. Like the Rack systems, all they need is power and networking, and they deliver all of the capabilities needed by a modern infrastructure platform with more of the capabilities configured and managed in software than ever before.


Current networking architectures are complex and expensive as well, representing 20-30% of infrastructure spend. That cost is in the gear itself and the enhanced security capabilities tied to it. Virtual Networking allows those security policies to be moved up out of the gear, which has significant implications: security policies can be attached to applications and users instead of IPs and ports, and the capabilities of the gear are reduced to efficient packet switching.

By moving the security policies up in the stack, we gain security capabilities there were prohibitively expensive to implement and impractical to maintain, and we allow choice in the gear from many vendors who cost 30-40% less than the dominant communication vendors.

Virtual Networking allows an ecosystem of devices to share in a global policy definition and implementation. We can easily draw boundaries around applications, policies that travel with the workloads as they move about the datacenter and later into the Cloud. Rules are implemented close to the objects and close to the edge. Workloads that cannot talk to the internet can have their packets dropped at the hypervisor; workloads that are in different security zones on the same host can communicate directly without traversing the edge network; and application access can be granted to specific users at the network level – their packets won’t even flow if they are not allowed.

End User Computing and Mobility

The popular way to deliver applications in Healthcare has the same complexity issues as the rest of the datacenter for the same reasons: it leverages expensive compute and storage. Capital costs to deliver SAN attached End User computing infrastructure is frequently upwards of $500 per user. A modern Always on Point of Care infrastructure can deliver a superior Clinical Experience for capital costs less than $250 per user. The operating efficiencies and flexibility offer tremendous value beyond that, but the capital costs are significant and impossible to ignore.

Path to the Cloud: Act Now to Realize the Savings and Prepare for the Future

CIOs at CHIME repeat that exiting the datacenter business is an objective; it is only a question of when, but that transition will take time. With that in mind, there are two realizable short term objectives: invest in the solutions that lower on premise capital and operating cost, and build the operational excellence required to effect a seamless transition to the Cloud with the time comes.

SDDC is the means to deliver on those objectives. Leveraging software defined storage and virtual networking allows compelling savings in storage, compute, and networking. Beyond that, the platform is designed to loosely couple your on premise datacenter with Public Cloud providers to seamlessly migrate workloads along with their operating and security policies with minimal interruption—sometimes no interruption at all. Imagine it: a stretched datacenter with policies defined in software and implemented in the walls of your datacenter and in your portion of a Cloud provider. Administrative control remains with infrastructure and application owners and allows the easiest choice of runtime with the easiest transition.

This is where we are all headed, and the technologies are in use now, today. We can get you there, too.


Automating Healthcare

Think back to what got you really excited about technology. Why do you do what you do, what is your defining moment in IT? Hopefully if you have been in the industry for a while, that is a fond memory, and you have built on that to make some amazing things happen. Something we are always asking here at VMware Healthcare is what can we do to make patient care better, and how can IT become a partner to the providers.

Defining Automation in the Healthcare World

So in the world of Healthcare, what do we mean when we talk about Automation? We are certainly not going to allow end users, in this case Doctors, to provision servers in most cases. Automation for the Healthcare environment typically means one of two things – Standardization for IT or Self Service for Application Administrators:

Standardization for IT:

As a former IT administrator/engineer I remember many times going through server build processes to hand off to the application teams. I would open my checklist, even on my 300th build, and go line by line checking off each as I completed the task. It got to the point where I memorized the checklist. I had dreams about the checklist. I hated the checklist. But, there was no forgiveness for the person who failed to build a server to the exacting standards we had agreed upon. Virtualization made this better. However, we just moved the checklist into the virtual world – the process didn’t change.

In the Healthcare environment, Automation enables IT to offload repetitive tasks, not to a junior admin or operator, but rather to the system. This then enables the existing teams to improve and focus on what is important – making the technology more available for the care providers. This also ensures that every system is built to the exacting standard every time, with no deviations other than those specified by the blueprint.

Self Service for Application Administrators:

Another use case for Automation is to speed up the application deployment process. In many Healthcare environments, the application administrator requests the system. The infrastructure team has to build the server, physical or virtual, provide network and storage services, and ensure the system is under management prior to handing it over. This whole process can be tied into a change management database, providing oversight and any controls needed can be given to the infrastructure team. Thus an application administrator still submits their request in a similar manner, and can receive their system(s) in far less time since the whole process can be automated.

Components of Automation

It is critical to remember that if we are automating, the Software Defined Data Center becomes more important than ever. We can’t just virtualize compute and put Automation in front of it and expect everything to work. We need an all-in approach. We need to be able to quickly modify storage and networks through a policy driven approach, as well.

This does require a serious look at Virtual Networking, and Software Defined Storage as diagramed below. While the physical infrastructure plays a critical role, the control should be moved into a software defined and policy driven model in order to fully enable Automation.


Automate Everything? What Could Go Wrong With That?

So this all sounds great where do I sign up? It is always good to look at the potential pitfalls of any technology. With Automation, the benefits are many, but we do need to elevate the staff managing these technologies. There are blueprints to build, and we need to ensure that is done properly.

We also need to provide proper process governance. Automation of a bad process will do simply that. The last thing we want is to take something from bad to worse. Any Automation project of any size should start with a review of business processes as well as IT processes. Automation should occur at the process level as well as the technology level.

Why Automate With VMware?

This is a massive undertaking to put it mildly. It really comes down to a question of interoperability. Looking at the larger picture, there will always be point products which will solve individual needs, it becomes a question of scale. Making everything work together from a management and Automation perspective makes the VMware vRealize Cloud Management platform preferable over a large number of products by multiple vendors.

As Healthcare continues to evolve, as we are required to deal with static or shrinking budgets, we in Healthcare IT must continue to evolve and improve our processes. Automation should not be frightening, or dangerous, but rather an opportunity to move forward and provide a better overall experience to our users and their patients.


- Aaron Dumbrow, Systems Engineer

Too Much Stuff: The Problem of Legacy Data in Healthcare

My family recently moved across the country and in that process we discovered something about ourselves; we have too much stuff. I’m not talking about things we use rather, things that we store which, for the most part, really falls into two main categories: things I have to store, old financial records, and things my wife wants me to store, christening gowns, cherished toys my children have long-since outgrown, tokens from our own childhoods, memories really. It occurred to me that my stuff, thank you Mr. Carlin, isn’t really that different than the legacy stuff that I had to deal with in healthcare.

Legacy [stuff] systems are a problem for every healthcare organization in this country. How could they not be? In the years before ARRA and Meaningful Use the medical record had become, for many, a hodge-podge of semi-connected systems and processes. If you checked into an ER then your medical record may have been electronic but, if you were admitted, then it could have been on paper, unless you spent time in the ICU, in which case it could have been on yet another electronic system.

Matters get even more complicated when you consider that this data is regulated. Individual states require the maintenance of a patients’ legal medical record for between 7 and 28 years, depending upon the state and the age of the patient at the time of treatment. Oddly enough, the need doesn’t stop there. Remember your clinicians? They’ve been documenting SOAP notes for years, not just on paper but, electronically as well, and have an expectation that they are going to be available for future episodes of care.

According to the ONC we’ve made massive progress at the provider level towards the adoption of highly integrated electronic medical records that meet the new federal standards. We’ve gone from a 13% adoption rate to over 56%, as of the latest published data. That’s fantastic progress but, in the wake of that transition, we’ve left behind a virtual graveyard of systems with shards of critical data still clinging to their disk drives; systems that have to be maintained – personnel, equipment, licenses, support – for a long time and are standing squarely in the path of achieving your clinical integration objectives and OpEx dreams.

How do we address this problem?

George suggested buying a bigger house but, as he points out, that rarely works. We need to address it head-on with a strategy that considers all of the risks, garners buy-in from in-house legal and compliance, as well as the clinical oversight, and IT. So, much like my personal problem with “stuff,” healthcare organizations face the same dilemma: data you have to maintain for legal and compliance reasons and data that your clinicians want you to maintain because it will one day be useful.

Stay tuned for more notes from me as we dig deeper and examine different alternatives to address this challenge and meet your organizational responsibilities: archival, common repository, and how tying these strategies into the right cloud might really address this problem once and for all. I look forward to the discussion.

Innovation for Improved Care Through Cross-Functional Teams

Information Technology has become an essential component of care delivery. The Healthcare industry has made significant investments in infrastructure and EMR systems to comply with regulatory guidelines, but the most impactful transformative opportunities remain. Physician Satisfaction and Patient Satisfaction through better accessibility and availability of critical systems and new mobile services are already emerging as a source of competitive advantage in Healthcare.

Deploying these new capabilities requires continual evaluation of new technologies and resources dedicated to the purpose. This is much easier said than done and requires that IT leaders take a strategic look at how IT organizations are structured and how innovation can be made inherent.

Present Challenges: Technology Silos
Most IT organizations in Healthcare are still built around functional disciplines: virtualization, storage, networking, security, desktop, application delivery, etc. While this alignment yields expertise in each functional discipline, it creates silos of communication and leadership. When new technologies emerge that blur the boundaries between the disciplines or require substantial changes across them, it can be extremely difficult to even explore those technologies, regardless of their value to improve Physician Satisfaction, Patient Care, or even reduce cost.

Organizations built around technology disciplines create isolated functions and management that inhibit cross-functional communication and innovation. This is a significant barrier to the review and adoption of new solutions in Healthcare.

Organizations built around technology disciplines create isolated functions and management that inhibit cross-functional communication and innovation. This is a significant barrier to the review and adoption of new solutions in Healthcare.

Disruptive technologies have extraordinary impact, but their very nature creates operational and political challenges. A pertinent example is virtualization itself. The value proposition was outstanding: compelling capital and operating savings, and the impact to availability and change management to support growth had a measurable impact on application availability. Despite these benefits, many organizations saw slow adoption due to challenges across technology disciplines (chiefly server, storage, and networking) who all had to learn new vocabularies and engage in a more collaborative fashion to design, build, and operate the platform. In time, all three have come to understand the relevant concepts, and virtualization has become the standard for x86 infrastructure. In many cases, this change was facilitated by changes in leadership and the creation of a virtualization team with expertise in the relevant disciplines.

Almost identical challenges exist today with several new capabilities and service delivery models: Mobility, Virtual Networking, Microsegmentation, Software-defined Storage, and Hybrid Cloud strategies. Successful adoption requires substantial collaboration and new responsibilities for existing staff.

Solution: Cross-Functional Teams for Lifecycle Stages
The solution can be found in organizations whose core business is technology such as Software as a Service providers. For such companies, the business and technology platform are inseparable, and long-term success requires that the infrastructure and operating platform evolve to leverage the best technologies that enable accessibility, availability, and security in the most efficient manner while controlling cost. These technology companies build innovation and operational excellence into their very structure.

Organizations that are built to support application and infrastructure lifecycle management using cross-functional teams are better equipped to evaluate and implement new solutions that lead to greater return on capital, lower operating expense, and superior clinical experiences.

Organizations that are built to support application and infrastructure lifecycle management using cross-functional teams are better equipped to evaluate and implement new solutions that lead to greater return on capital, lower operating expense, and superior clinical experiences.

Instead of technical silos, evolving infrastructure groups leverage cross-functional teams focused on application lifecycle stages: Architecture, Engineering, and Operations. Each team has experts in the traditional technical disciplines, but the structure requires collaboration and cross-education to succeed: experts in individual areas educate the rest to evaluate new solutions and develop new infrastructure and application models. As new technologies are selected and new designs chosen, there is tight collaboration with the Engineering team to build the infrastructure and input from the Operations team to ensure intelligent monitoring and feedback are part of the design.

Architecture is tasked with exploring new technologies and architectures. Their primary purpose is to innovate: to evaluate solutions that might better serve the delivery of care and the efficient operation of clinicians regardless of the technical discipline. They review technologies through evaluation and small pilots in close collaboration with clinicians and other stakeholders. They answer important questions: How can we better serve clinicians and address their mobility needs? How can we enable service delivery to patients on their own devices? How can we effectively deliver applications as a service to affiliates and partners? What new security capabilities are required to address a complex communications and regulatory environment? What is the right solution for newly acquired clinics and remote users? How do we handle multiple-os clients and user-owned devices? What is the value of Business Continuity, and how can it best be made available to application owners? What does the next generation of our infrastructure look like?

Engineering builds next generation infrastructure and owns change management. The Engineering team works with Architecture on pilots to begin operationalization of new solutions and ensure necessary infrastructure changes are implemented smoothly. When composed of members who are experts in a broad range of technical disciplines, the team as a whole can develop a more comprehensive understanding of the operating environment, which improves design and reduces time to overcome complex challenges that continually encompass more of the traditional technical disciplines.

Operations owns break-fix, monitoring, support, and feedback to Engineering and Architecture to resolve issues in the platform and application stack. The support function is essential to the feedback loop: understanding the clinical challenges as a function of training, infrastructure, or application issues so the solutions can be quickly developed and implemented. This team needs an integrated understanding of the entire environment and access to sophisticated and comprehensive monitoring solutions to ensure that problems with infrastructure and applications can be observed and mitigated before affecting a service delivery. In the event of service interruptions, their multi-disciplined structure expedites restoration with feedback to Architecture and Engineering for relevant design changes.

Build for Change: Improve Satisfaction and Care
Innovation is vital, especially as IT services become ever more critical to new healthcare services delivery. The skills are present in the technology silos in most organizations, and they key to unlocking those skills is within the control of IT leadership. Cross functional teams tasked with designing, building, and running the next generation infrastructure will build platforms for success and ensure the continued advancement of Care delivery and new services to support it.

Real World Use Cases for VMware in Healthcare IT

Do you have vCloud for Healthcare

No, it’s not something you can catch on a cross-country flight or from playing in the rain without a jacket. If you are in Healthcare IT, vCloud for Healthcare is something that you want and need.

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Why do I need vCloud for Healthcare, again? Because VMware has created a bundle of technology solutions and services that map to the healthcare-specific outcomes you are being asked to deliver.

“Well, I didn’t know VMware had healthcare-focused IT solutions.” We do. Many vendors say they have a Healthcare practice because they sell into Healthcare.  At VMware, Healthcare is a true vertical.  We have a team of hundreds of people dedicated to collaborating with a broad range of healthcare ecosystem partners like hospitals, clinical application providers, and industry groups, to help deliver safer and more efficient healthcare solutions. VMware is also a Premier Foundation Member of CHIME and a Diamond Member of HIMSS.

Now, before it sounds like we are tooting our own horn… We understand your mission.  At VMware, our team knows that this is the only industry we are all going to be consumers of one day and we need to help get it right.  No one has all of the answers yet, regarding what Healthcare will look like in the future.  However, VMware has a long history in healthcare going back to helping the pharmaceutical companies achieve faster FDA validation. Maybe we don’t wear lab coats, but we still feel like we are in patient care.

Tell us if we got this right… We know you are being asked to deliver better Clinical Outcomes, improved Patient Experience, and all while driving costs down and increasing Operational Efficiency.  Oh, by the way, your Electronic Medical Records costs are going up, while reimbursements are trending downward.  And as all this is happening, Mergers & Acquisitions are taking place all around you at a frenzied pace, Regulatory and Security requirements are exploding, and everyone wants Mobility and access from anywhere.  Hopefully, you are starting to see that we are in the boat with you, and rowing in the same direction.

You are being asked to go from filling the hospitals (a volume care model) to emptying them (a wellness versus fee-for-service model).  Yet, that is a huge cultural shift which requires more physicians, and no one wants to become a General Practitioner anymore. Phew.

“Sure, that’s all true, but I work in IT.  My challenges are different.”  We live in your world every day and know that you are being asked to take legacy environments and go from system performance and availability (right in your wheelhouse), to somehow helping deliver long-term sustainability, services sharing, cost/revenue modeling, and mature IT analytics.  This new end state is currently a foreign land to many of you.

In comes vCloud for Healthcare… Here is where we can help.  Think of vCloud for Healthcare as a Software-Defined Enterprise with healthcare outcomes in mind.  vCloud for Healthcare offers support for both Legacy and New systems, has built-in IT Analytics and Automation, delivers Mobility and Point of Care solutions, Hybrid and Public Cloud support, Fault Tolerance and Business Continuity, Self-Service capabilities, and even Financial Analytics.

Ignore HIPAA and PCI and just do the jail time. Well, no one is thinking that. vCloud for Healthcare, above all, offers Integrated Industry Security and Compliance, validation by the world’s leading clinical application providers that you know and love, and leverages all of your existing investments in our KLAS-rated vSphere platform.  Thank you for your business, by the way!  Even our vCloud Air offering will sign a Business Associate Agreement and share the risk with you.

So now that you trust us, I’m sure you are thinking, “Am I the first to do this?”… Here is how your peers are leveraging our software in Healthcare, right now, to help drive operational efficiency and better patient outcomes.  Contact your VMware team for specific references.

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Secure Access, Clinical Productivity, BYOD & a Superior User Experience from Anywhere

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Security and Compliance is Baked in to the Platform


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Ensuring Zero Downtime

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Automation and enabling Self-Service is Key to Reducing OPEX

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Running Healthcare IT like a Business

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Seamlessly extending your environment with security, agility, and control


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Reflections on VMware Care Systems Analytics (Now Available)

Post authored by Drew Koerner, Chief Healthcare Solutions Architect

When I started at VMware in March of 2011, I was astounded by the company’s vision to redefine the IT world as we know it. VMware truly had great leadership, engineering, and technology – yet something was missing.

Delivering New Industry-specific Healthcare Solutions

I came to VMware from Poudre Valley Health System (PVHS) in Colorado where I was responsible for the organization’s desktops, infrastructure, security, and of course, VMware environment. PVHS was one of a few health systems to win the Malcolm Baldrige National Quality Award. We took a great deal of pride in winning that award because it recognized what we called our World-Class Patient Care.

We measured World-Class Patient Care as being in the top 10 percent worldwide for different quality measures such as lowest number of falls, hospital-induced infections, and the like. Even though I was in the IT department, our CIO Russ Branzell made quality our mission.

As I transitioned into my new role on the VMware healthcare team and started working on delivering the next great VMware solution, I wanted to maintain that focus on World-Class Patient Care.

I began helping to develop our VMware vCloud for Healthcare solutions framework, which included VMware AlwaysOn Point of Care™. By allowing fast, secure access back to their applications, the solution gives time back to doctors and nurses—one of the greatest advantages in my book. I heard a nurse once say that their job she was becoming a “computer person” because of all of the electronic documentation they had to do. AlwaysOn Point of Care gives time back to doctors and nurses so that they can focus more on patient care.

VMware Care Systems Analytics – Helping Healthcare Organizations to Improve EMR Applications’ Availability and Performance

One of first challenges I saw when I settled in at VMware was that we had great products including virtualization, virtual desktop infrastructure (VDI), and enterprise management, but none was explicitly designed to immediately help clinicians. A doctor or nurse is not concerned about right-sizing a virtual machine, but is severely impacted when a system goes down. My goal was to develop a VMware solution that would help me better answer a doctor or nurse who came to me asking, “Why is the system running slowly?”

VMware has a product that gives IT a great way to understand all of the infrastructure metrics—including network, CPU, storage, memory, and other aspects of the Software-Defined Data Center—for systems doctors and nurses regularly use.  To me, this was only part of the solution they really needed. We also had to get the actual application metrics—the metrics from electronic medical records (EMRs), for example—to know the true health of applications and what the clinicians were experiencing.

Working closely with customers and EMR vendors, we’ve developed the newly available VMware Care Systems Analytics to identify, troubleshoot, and head off potential system problems before they cause disruption to hospital operations.  At a glance, IT staff can see which workflows are running slowly, and if any operational parameters, such as the number of print jobs, are exceeding normal thresholds (which are automatically calculated by the solution).

It’s amazing to see how much IT and clinicians appreciate this visibility. A few of our beta hospitals have told me they plan to put point-of-care dashboards within each nursing unit to show exactly how their workflow values are performing in real time. If you’re in healthcare, I think you’re really going to like Care Systems Analytics.

I’m excited about the availability of Care Systems Analytics, but I think it is just a starting point—the first of many solutions that I hope to help VMware build for healthcare organizations. I believe IT has always been one layer removed from direct patient care but with more systems becoming electronic, IT has now become part of the patient-care contract. For the first time, solutions like Care Systems Analytics allow us to help clinicians provide better outcomes, which in the end, enable World-Class Patient Care.

Learn how you can improve outcomes by downloading the Care Systems Analytics solution brief and joining the conversation on Twitter @VMwareHIT, VMwareHIT on Facebook or YouTube.

Join us at the Online VMware Forum to see what’s new in Healthcare IT

We’re excited to share that Healthcare will be featured in the Online VMware Forum this year! This FREE event is a great place to learn about VMware’s solutions and interact with technical experts. The live event begins on May 8th at 8:00 AM PST and will be available on demand.

In regards to Healthcare, be sure to check out the following when you join the event:

  • New Product Center: We will be featuring our new Care Systems Analytics solution.
  • 11:30 AM PST: Breakout session with live Q&A in the Auditorium titled “VMware Care Systems Analytics.”
  • 12:30 PM PST: Live chat session with Drew Koerner in the Technical Chat Lounge.

Attend the sessions to learn how VMware Care Systems Analytics can improve healthcare IT infrastructure and application performance and uptime. Drew Koerner, Chief Healthcare Solutions Architect at VMware, will be interacting with attendees after the breakout session and during the live chat.

Register for the Online VMware Forum here. We hope to see you there!

Online VMware Forum - May 8, 2014

HIMSS 2014 Photo Album – Booth, Demo Stations, & More

Take a few minutes to check out our photo album from HIMSS 2014 in Orlando, FL.

Live from HIMSS: Videos at the VMware Booth

HIMSS 2014: Quick Look at VMware
Frank Nydam, Healthcare CTO, VMware gives us a sneak peek into the VMware presence at HIMSS14.

HIMSS 2014: Overview of VMware Booth and Demos
Take a deeper look into the VMware presence at HIMSS14 and see demo clips for AlwaysOn Point of Care™, Care Systems Analytics, and vCloud Hybrid Services.

Demo Video: Care System Analytics for vCloud

Watch this CSA Demo by Drew Koerner – this solution was featured in our booth at HIMSS.