Last year at VMworld 2021, VMware mentioned and announced a lot of (new) projects they are working on. What happened to them and which new VMware projects have been mentioned this year at VMware Explore so far?
Project Ensemble – VMware Aria Hub
VMware unveiled their unified multi-cloud management portfolio called VMware Aria, which provides a set of end-to-end solutions for managing the cost, performance, configuration, and delivery of infrastructure and cloud native applications.
VMware Aria is anchored by VMware Aria Hub (formerly known as Project Ensemble), which provides centralized views and controls to manage the entire multi-cloud environment, and leverages VMware Aria Graph to provide a common definition of applications, resources, roles, and accounts.
VMware Aria Graph provides a single source of truth that is updated in near-real time. Other solutions on the market were designed in a slower moving era, primarily for change management processes and asset tracking. By contrast, VMware Aria Graph is designed expressly for cloud-native operations.
Project Arctic has been introduced last year as a Technology Preview and was described as “the next step in the evolution of vSphere in a multi-cloud world”. What has started with the idea of bringing VMware Cloud services closer to vSphere, has evolved to a even more interesting and enterprise-ready version called vSphere+ and vSAN+. It includes developer services that consist of the Tanzu Kubernetes Grid runtime, Tanzu Mission Control Essentials and NSX Advanced Load Balancer Essentials. VMware is going to add more and more VMware Cloud add-on services in the future. Additionally, VMware even introduced VMware Cloud Foundation+.
Project Iris – Application Transformer for VMware Tanzu
VMware mentioned Project Iris very briefly last year at VMworld. In February 2022, Project Iris became generally available and is since then known as Application Transformer for VMware Tanzu.
Project Northstar
At VMware Explore on day 1, VMware introduced Project Northstar, which will provide customers a centralized cloud console that gives them instant access to networking and security services, such as network and security policy controls, Network Detection and Response (NDR), NSX Intelligence, Advanced Load Balancing (ALB), Web Application Firewall (WAF), and HCX. Project Northstar will be able to apply consistent networking and security policies across private cloud, hybrid cloud, and multi-cloud environments.
At VMware Explore on day 1,VMware unveiled Project Watch, a new approach to multi-cloud networking and security that will provide advanced app-to-app policy controls to help with continuous risk and compliance assessment. In technology preview, Project Watch will help network security and compliance teams to continuously observe, assess, and dynamically mitigate risk and compliance problems in composite multi-cloud applications.
Project Trinidad
Also announced at VMware Explore day 1 and further explained at day 2, Project Trinidad extends VMware’s API security and analytics by deploying sensors on Kubernetes clusters and uses machine learning with business logic inference to detect anomalous behavior in east-west traffic between microservices.
Project Trinidad just dropped from @vmwocto xLabs! This project is near and dear to my heart! (Happy Independence Day 🇹🇹!!! 😉)
Project Narrows introduces a unique addition to Harbor, allowing end users to assess the security posture of Kubernetes clusters at runtime. Images previously undetected, will be scanned at the time of introduction to a cluster, so vulnerabilities can now be caught, images may be flagged, and workloads quarantined.
Project Narrows adding dynamic scanning to your software supply chain with Harbor is critical. It allows greater awareness and control of your running workloads than the traditional method of simply updating and storing workloads.
VMware is open sourcing the initial capabilities of Project Narrows on GitHub as the Cloud Native Security Inspector (CNSI) Project.
Also introduced on day 2, Project Keswick is about simplifying edge deployments at scale. It comes as an xLabs project coming out of the Advanced Technology Group in VMware’s Office of the CTO.
A Keswick deployment is entirely automated and uses Git as a single source of truth for a declarative way to manage your infrastructure and applications through desired state configuration enabled by GitOps. This ensures the infrastructure and applications running at the edge are always exactly what they need to be.
At VMware Explore 2022 day 2, VMware demonstrated what they believe to be the world’s first quantum-safe multi-cloud application!
VMware developed and presented Project Newcastle, a policy-based framework enabling and orchestrating cryptographic transition in modern applications.
Integrated with Tanzu Service Mesh, Project Newcastle gives users greater insight into the cryptography in their applications. But that’s not all — as a platform for cryptographic agility, Project Newcastle automates the process of reconfiguring an application’s cryptography to comply with user-defined policies and industry standards.
Closing Comment
Which VMware projects excite you the most? I’m definitely going with Project Ensemble (Aria Hub) and Project Newcastle!
VMworld is now VMware Explore and is currently happening in San Francisco! This is a consolidated of the announcements from day 1 (August 30th, 2022).
VMware Introduces vSphere 8, vSAN 8 and VMware Cloud Foundation+
VMware today introduced VMware vSphere 8 and VMware vSAN 8—major new releases of VMware’s compute and storage solutions.
vSphere 8 – vSphere 8 introduces vSphere on DPUs, previously known as Project Monterey. In close collaboration with technology partners AMD, Intel and NVIDIA as well as OEM system partners Dell Technologies, Hewlett Packard Enterprise and Lenovo, vSphere on DPUs will unlock hardware innovation helping customers meet the throughput and latency needs of modern distributed workloads. vSphere will enable this by offloading and accelerating network and security infrastructure functions onto DPUs from CPUs.
vSphere 8 will dramatically accelerate AI and machine learning applications by doubling the virtual GPU devices per VM, delivering a 4x increase of passthrough devices, and supporting vendor device groups which enable binding of high-speed networking devices and the GPU.
vSAN 8: vSAN 8 introduces breakthrough performance and hyper-efficiency. Built from the ground up, the new vSAN Express Storage Architecture (ESA) will enhance the performance, storage efficiency, data protection and management of vSAN running on the latest generation storage devices. vSAN 8 will provide customers with a future ready infrastructure that supports modern TLC storage devices and delivers up to a 4x performance boost.
VMware Cloud Foundation+ – VMware introduces a new cloud-connected architecture for managing and operating full stack HCI in data centers. Built on vSphere+ and vSAN+, VMware Cloud Foundation+ will add a new cloud-connected architecture for managing and operating full-stack HCI in our data center or co-location facility.
VMware Cloud Foundation+ will deliver new admin, developer and hybrid cloud services through a simplified subscription model and keyless entitlement. VMware Cloud Foundation 4.5 will enable VMware Cloud Foundation+ by adding vSphere+ and vSAN+, plus a cloud gateway that provides access to the VMware Cloud Console as part of the full stack architecture.
VMware Cloud for Hyperscalers
VMC on AWS – Amazon Elastic Compute Cloud (Amazon EC2) I4i instances for I/O-intensive Workloads: Powered by 3rd generation Intel® Xeon® Scalable processors (Ice Lake), Amazon EC2 instances help deliver better workload support and delivery, lower TCO, and increased scalability and application performance. Compared to I3, the I4i instances provide nearly twice the number of physical cores, twice the memory, three times the storage capacity, and three times the network bandwidth.
Amazon FSx for NetApp ONTAP Integration Availability – as a native AWS cloud storage service that is certified as a supplemental datastore for VMware Cloud on AWS, FSx for ONTAP offers fully managed shared storage built on the familiar NetApp ONTAP file system trusted by VMware customers running on premises today. Customers can now use FSx for ONTAP as a simple and elastic datastore for VMware Cloud on AWS, enabling them to scale storage up or down independently from compute while paying only for the resources they need.
VMware Cloud Flex Storage Availability – A new VMware-managed and natively integrated cloud storage and data management solution that offers supplemental datastore-level access for VMware Cloud on AWS. With just a few clicks in the VMware Cloud Console, customers can scale their storage environment without adding hosts, and elastically adjust storage capacity up or down as needed for every application. Customers also benefit from a simple, pay-as-you-consume pricing model. Together with VMware vSAN, VMware Cloud Flex Storage offers flexibility and customer value in terms of resilience, performance, scale, and cost in the cloud.
VMware Cloud Flex Compute – “Preview” of a new cloud compute model that will help customers get started faster with VMware Cloud on AWS. With this new model, VMware introduces a “resource-defined” cloud compute model in place of “hardware-defined” compute instance model which will provide customers higher flexibility, elasticity, and speed to better meet cost and performance requirements of enterprise applications. It will help customers get started faster with VMware Cloud on AWS by using smaller consumable units.
Oracle Cloud VMware Solution – New features and capabilities with VMware Tanzu Standard Edition and introduced support for single host SDDCs for non-production workloads.
VMware Cloud Management – VMware Aria
VMware unveiled a multi-cloud management portfolio called VMware Aria, which provides a set of end-to-end solutions for managing the cost, performance, configuration, and delivery of infrastructure and cloud native applications.
VMware Aria is a new brand for the vRealize components, Tanzu Observability by Wavefront and CloudHealth unified under one umbrella, one name.
The VMware products and services within the VMware Aria portfolio are:
VMware Aria is anchored by VMware Aria Hub (formerly known as Project Ensemble), which provides centralized views and controls to manage the entire multi-cloud environment, and leverages VMware Aria Graph to provide a common definition of applications, resources, roles, and accounts.
VMware Aria Graph provides a single source of truth that is updated in near-real time. Other solutions on the market were designed in a slower moving era, primarily for change management processes and asset tracking. By contrast, VMware Aria Graph is designed expressly for cloud-native operations.
VMware Aria provides features and functions that span management disciplines and clouds to deliver unique value for multi-cloud governance, cross-cloud migration, and actionable business insights. In addition, there are three new end-to-end management services built on top of VMware Aria Hub and VMware Aria Graph:
VMware Aria Guardrails – Automate enforcement of cloud guardrails for networking, security, cost, performance, and configuration at scale for multi-cloud environments with an everything-as-code approach
VMware Aria Migration – Accelerate and simplify the multi-cloud migration journey by automating assessment, planning, and execution in conjunction with VMware HCX
VMware Aria Business Insights – Discern relevant business insights from full-stack event correlation leveraging AI/ML analytics
Networking and Security
Project Northstar – Project Northstar is a SaaS-based network and security offering that will empower NSX customers with a set of on-demand multi-cloud networking and security services, end-to-end visibility, and controls. Customers will be able to use a centralized cloud console to gain instant access to networking and security services, such as network and security policy controls, Network Detection and Response (NDR), NSX Intelligence, Advanced Load Balancing (ALB), Web Application Firewall (WAF), and HCX. It will support both private cloud and VMware Cloud deployments running on public clouds and enable enterprises to build flexible network infrastructure that they can spin up and down in minutes.
DPU-based Acceleration for NSX – Formerly known as Project Monterey, VMware announced that starting with NSX 4.0 and vSphere 8.0, customers can leverage DPU-based acceleration using SmartNICs. Offloading NSX services to the DPU can accelerate networking and security functions without impacting the host CPUs, addressing the needs of modern applications and other network-intensive and latency-sensitive applications.
Project Trinidad – Available as tech preview, Project Trinidad extends VMware’s API security and analytics by deploying sensors on Kubernetes clusters and uses machine learning with business logic inference to detect anomalous behavior in east-west traffic between microservices.
Project Watch – VMware unveiled Project Watch, a new approach to multi-cloud networking and security that will provide advanced app-to-app policy controls to help with continuous risk and compliance assessment. In technology preview, Project Watch will help network security and compliance teams to continuously observe, assess, and dynamically mitigate risk and compliance problems in composite multi-cloud applications.
Additionally, VMware NSX Advanced Load Balancer adds new bot management capabilities to help enterprises address threats quickly and efficiently, providing enhanced multi-layer application protection with existing Web Application Firewall, DDoS protection, and API security.
Edge
VMware Edge Compute Stack 2.0 – VMware announced the VMware Edge Compute Stack v1.0 last year and is now adding more features and functionalities optimized for different use cases at the enterprise edge – shipped with vSphere 8 and Tanzu Kubernetes Grid 2.0. VMware, for the first time, will introduce initial support for non-x86 processor-based specialized small form factor edge platforms to simultaneously run IT/OT workloads and workflows on a single stack.
VMware Private Mobile Network (Beta) – Delivered by service providers, this new managed service offering provides enterprises with private 4G/5G mobile connectivity in support of edge-native applications. VMware will empower partners with a single PMN orchestrator to operate multi-tenant private 4G/5G networks with an enterprise-grade solution.
Modern Applications (VMware Tanzu)
Tanzu Application Platform – VMware pre-announced new Tanzu Application Platform (TAP) 1.3 capabilities like the availability on RedHat OpenShift or the support for air-gapped installations for regulated and disconnected environments.
Tanzu Kubernetes Grid – With the release of TKG 2.0, VMware now includes a unified experience for applications running on any cloud. In the near future, Tanzu Kubernetes Grid 2.0 should support both Supervisor-based and VM-based management cluster models. On vSphere 8, both Supervisor-based and VM-based models will be supported, and VM-based management clusters will continue to be available on previous versions of vSphere and public clouds. This means in other words, that VMware continues with their “TKGS” and “TKGm” flavors.
Support for customer-owned enterprise certificate authority through integration with Venafi
Improved security with enterprise-approved container image registries, data services support, external services support
and a global SLO dashboard that allows developers and site-reliability engineers to view all managed service SLOs, helping with capacity planning, troubleshooting, and understanding the health of their applications.
VMware unveiled how it is advancing self-configuring, self-healing and self-securing outcomes across four key technology areas that are delivered by the Anywhere Workspace platform:
VDI and DaaS
Digital Employee Experience
Unified Endpoint Management
Security
VMware is introducing a next generation of VMware Horizon Cloud that will enable multi-cloud agility and flexibility. This new release represents a major update to Horizon Cloud on Microsoft Azure that can dramatically simplify the infrastructure that needs to be deployed inside customer environments, reducing infrastructure costs in some cases by over 70% while increasing scalability and reliability of VMware’s DaaS platform.
Workspace ONE UEM’s Freestyle Orchestrator will be expanding to include support for mobile devices.
Workspace ONE support for Windows OS multi-user mode is now available in Tech Preview for Azure Active Directory-based deployments; and it will soon be extended to Active Directory-based deployments.
VMware also announced the coming tech preview of Workspace ONE Cloud Marketplace, which will feature dashboards, widgets, reports, Freestyle Orchestrator workflows, and other resources that can be imported to help customers adopt additional solutions.
Horizon Managed Desktop – I am very excited about this announcement, because it will provide a managed service offering that takes care of lifecycle services, support, and more, on top of a customer-provided infrastructure. This will help customers that don’t have in-house experts get to value with VDI faster.
Availability
VMware Cloud Foundation+, VMware vSphere 8, VMware vSAN 8 and VMware Edge Compute Stack 2.0 are all expected to be available by October 28, 2022 (the close of VMware’s Q3 FY23). VMware Private Mobile Network is expected to be available in beta in VMware’s Q3 FY23.
Closing Comment
Not bad for the first day, right? Stay tuned for more exciting VMware Explore announcements!
I am finally taking the time to write this piece about interclouds, workload mobility and application portability. Some of my engagements during the past four weeks led me several times to discussions about interclouds and workload mobility.
Cloud to Cloud Interoperability and Federation
Who has thought back in 2012 that we will have so many (public) cloud providers like AWS, Azure, Google Cloud, IBM Cloud, Oracle Cloud etc. in 2022?
10 years ago, many people and companies were convinced that the future consists of public cloud infrastructure only and that local self-managed data centers are going to disappear.
This vision and perception of cloud computing has dramatically changed over the past few years. We see public cloud providers stretching their cloud services and infrastructure to large data centers or edge locations. It seems they realized, that the future is going to look differently than a lot of people anticipated back then.
I was not aware that the word “intercloud” and the need for it exists for a long time already apparently. Let’s take David Bernstein’s presentation as an example, which I found by googling “intercloud”:
This presentation is about avoiding the mistake of using proprietary protocols and cloud infrastructures that lead to silos and a non-interoperable architecture. He was part of the IEEE Intercloud Working Group (P2302) which was working on a standard for “Intercloud Interoperability and Federation (SIIF)” (draft), which mentioned the following:
Currently there are no implicit and transparent interoperability standards in place in order for disparate cloud computing environments to be able to seamlessly federate and interoperate amongst themselves. Proposed P2302 standards are a layered set of such protocols, called “Intercloud Protocols”, to solve the interoperability related challenges. The P2302 standards propose the overall design of decentralized, scalable, self-organizing federated “Intercloud” topology.
I do not know David Bernstein and the IEEE working group personally, but it would be great to hear from some of them, what they think about the current cloud computing architectures and how they envision the future of cloud computing for the next 5 or 10 years.
As you can see, the wish for an intercloud protocol or an intercloud exists since a while. Let us quickly have a look how others define intercloud:
Cisco in 2008 (it seems that David Bernstein worked at Cisco that time). Intercloud is a network of clouds that are linked with each other. This includes private, public, and hybrid clouds that come together to provide a seamless exchange of data.
teradata. Intercloud is a cloud deployment model that links multiple public cloud services together as one holistic and actively orchestrated architecture. Its activities are coordinated across these clouds to move workloads automatically and intelligently (e.g., for data analytics), based on criteria like their cost and performance characteristics.
Alvin Cheung is an associate professor at Berkeley EECS and wrote the following in his Twitter comments:
we argue that cloud computing will evolve to a new form of inter-cloud operation: instead of storing data and running code on a single cloud provider, apps will run on an inter-operating set of cloud providers to leverage their specialized services / hw / geo etc, much like ISPs.
Alvin and his colleagues wrote a publication which states “A Berkeley View on the Future of Cloud Computing” that mentions the following very early in the PDF:
We predict that this market, with the appropriate intermediation, could evolve into one with a far greater emphasis on compatibility, allowing customers to easily shift workloads between clouds.
[…] Instead, we argue that to achieve this goal of flexible workload placement, cloud computing will require intermediation, provided by systems we call intercloud brokers, so that individual customers do not have to make choices about which clouds to use for which workloads, but can instead rely on brokers to optimize their desired criteria (e.g., price, performance, and/or execution location).
We believe that the competitive forces unleashed by the existence of effective intercloud brokers will create a thriving market of cloud services with many of those services being offered by more than one cloud, and this will be sufficient to significantly increase workload portability.
Intercloud Broker
Organizations place their workloads in that cloud which makes the most sense for them. Depending on different regulations, data classification, different cloud services, locations, or pricing, they then decide which data or workload goes to which cloud.
The people from Berkeley do not necessarily promote a multi-cloud architecture, but have the idea of an intercloud broker that places your workload on the right cloud based on different factors. They see the intercloud as an abstraction layer with brokering services:
In my understanding their idea goes towards the direction of an intelligent and automated cloud management platform that takes the decision where a specific workload and its data should be hosted. And that it, for example, migrates the workload to another cloud which is cheaper than the current one.
Cloud Native Technologies for Multi-Cloud
Companies are modernizing/rebuilding their legacy applications or create new modern applications using cloud native technologies. Modern applications are collections of microservices, which are light, fault tolerant and small. These microservices can run in containers deployed on a private or public cloud.
Which means, that a modern application is something that canadapt to any environment and perform equally well.
The challenge today is that we have modern architectures, new technologies/services and multiple clouds running with different technology stacks. And we have Kubernetes as framework, which is available in different formats (DIY or offerings like Tanzu TKG, AKS, EKS, GKE etc.)
Then there is the Cloud Native Computing Foundation (CNCF) and the open source community which embrace the principal of “open” software that is created and maintained by a community.
It is about building applications and services that can run on any infrastructure, which also means avoiding vendor or cloud lock-in.
Challenges of Interoperability and Multiple Clouds
If you discuss multi-cloud and infrastructure independent applications, you mostly end up with an endless list of questions like:
How can we achieve true workload mobility or application portability?
How do we deal with the different technology formats and the “language” (API) of each cloud?
How can we standardize and automate our deployments?
Is latency between clouds a problem?
What about my stateful data?
How can we provide consistent networking and security?
What about identity federation and RBAC?
Is the performance of each cloud really the same?
How should we encrypt traffic between services in multiple clouds?
What about monitoring and observability?
Workload Mobility and Application Portability without an Intercloud
VMware has a different view and approach how workload mobility and application portability can be achieved.
Their value add and goal is the same, but with a different strategy of abstracting clouds.
VMware is not building an intercloud but they provide customer a technology stack (compute, storage, networking), or a cloud operating system if you will, that can run on top of every major public cloud provider like AWS, Azure, Google Cloud, IBM Cloud, Oracle Cloud and Alibaba Cloud.
This consistent infrastructure makes it especially for virtual machines and legacy applications extremely easy to be migrated to any location.
What about modern applications and Kubernetes? What about developers who do not care about (cloud) infrastructures?
Project Cascade
At VMworld 2021, VMware announced the technology preview of “Project Cascade” which will provide a unified Kubernetes interface for both on-demand infrastructure (IaaS) and containers (CaaS) across VMware Cloud – available through an open command line interface (CLI), APIs, or a GUI dashboard.
The idea is to provide customers a converged IaaS and CaaS consumption service across any cloud, exposed through different Kubernetes APIs.
I heard the statement “Kubernetes is complex and hard” many times at KubeCon Europe 2022 and Project Cascade is clearly providing another abstraction layer for VM and container orchestration that should make the lives of developers and operators less complex.
Project Ensemble
Another project in tech preview since VMworld last year is “Project Ensemble“. It is about multi-cloud management platform that provides an app-centric self-service portal with predictive support.
Project Ensemble will deliver a unified consumption surface that meets the unique needs of the cloud administrator and SRE alike. From an architectural perspective, this means creating a platform designed for programmatic consumption and a firm “API First” approach.
I can imagine that it will be a service that leverages artificial intelligence and machine learning to simplify troubleshooting and that is capable in the future to intelligently place or migrate your workloads to the appropriate or best cloud (for example based on cost) including all attached networking and security policies.
Conclusion
I believe that VMware is on the right path by giving customers the option to build a cloud-agnostic infrastructure with the necessary abstraction layers for IaaS and CaaS including the cloud management platform. By providing a common way or standard to run virtual machines and containers in any cloud, I am convinced, VMware is becoming the defacto standard for infrastructure for many enterprises.
By providing a consistent cloud infrastructure and a consistent developer model and experience, VMware bridges the gap between the developers and operators, without the need for an intercloud or intercloud protocol. That is the future of cloud computing.
VMware is giving their customers more and more the option to move towards a subscription-based licensing model. In general, companies are moving away from the large pay-up-front deals and replace them with recurring subscriptions. Vendors like VMware are making a lot of investments to provide the structures, processes and capabilities to offer subscription licenses (and SaaS services). Organizations see the benefits of subscription licenses and this blog describes the current options if you want to move your vSphere perpetual licenses towards vSphere subscription.
vSphere+ Advantage – vSphere Subscription Service
Since December 2021, VMware offers vSphere Advantage in limited regions (aka Initial Availability).
vSphere Advantage gives you the flexibility to manage and operate your on-premises vSphere infrastructure while leveraging several VMware Cloud capabilities:
Transition from vSphere perpetual to vSphere subscription-based consumption for your vSphere deployments
Complete view of the globally distributed on-premises vSphere inventory
VMware-managed vCenter Servers (aka Project Arctic, not GA yet)
From a centralized VMware Cloud Console you can monitor events, alerts, capacity utilization, and the security posture of your vSphere infrastructure.
It is also possible now for you to plan and upgrade your existing vSphere licensing keys and replace them with vSphere Advantage, which enables you to make use of keyless entitlements. This keyless entitlement makes it very easy for customers to stay compliant all the time and to understand the current subscription usage.
To start using vSphere Advantage, you must enable communication between your on-premises vCenter Server and VMware Cloud by using a vCenter Cloud Gateway. This requires an outbound connection (443, HTTPS) only, no VPN is needed.
Current vCenter Server Requirements:
The vCenter Server version must be 7.0 Update 3a and later
Configure the vCenter Server with a backup and restore mechanism
Dedicate at least three ESXi hosts for the vCenter Server. (Recommended)
The vCenter Server must be self-managed. It must manage its own ESXi hosts and virtual machines
Unsupported vCenter Configurations:
Ensure that the vCenter Server is not configured in High Availability mode
If the vCenter Server is configured in Enhanced Linked Mode (ELM), unlink it from ELM. See Repoint a vCenter Server Node to a New Domain. ELM is no longer required because with vSphere Advantage you can monitor your entire vSphere inventory in a single pane of glass.
Ensure that the vCenter Server is not configured with NSX for vSphere, vRealize Operations Manager, Site Recovery Manager, vCloud Suite, or vSAN.
Project Arctic – VMware-Managed vCenter (Roadmap)
VMware introduced Project Arctic at VMworld 2021. Now it’s called vSphere Advantage. While a hybrid cloud operating model for vSphere becomes default now, it’s not yet possible to let VMware manage your vCenter Servers. We can expect that this capability will be shipped and made generally available somewhen in 2022.
VMware Edge Compute Stack
Edge Compute Stack (ECS) is a purpose-built stack that is available in three different editions (information based on initial availability from VMworld 2021):
As you can see, each VMware Edge Compute Stack edition has the vSphere Enterprise+ (hypervisor) included. Software-defined storage with vSAN is optional, but Tanzu for running containers is always part of each edition.
Note: The Edge Compute Stack includes vSphere subscription licenses.
Other Options
If you are running the VMware Cloud Foundation (VCF) stack and look for a managed service offering, which includes subscription-based licensing, have a look at the following alternatives:
VMware revealed their edge computing vision at VMworld 2021. In VMware’s view the multi-cloud extends from the public clouds to private clouds to edge. Edge is about bringing apps and services closer to where they are needed, especially in sectors like retail, transportation, energy and manufacturing.
In verticals like manufacturing the edge was always important. It’s about producing things than you can sell. If you cannot produce, you lose time and money. Reliability, stability and factory uptime are not new requirements. But why is edge becoming so important now?
Without looking at any analyst report and only providing experience from the field, it is clear why. Almost all of the large enterprises are migrating workloads from their global (central) data centers to the public cloud. At the same time, customers are looking at new innovations and technologies to connect their machines, processes, people and data in a much more efficient way.
Which requirement did all my customers have in common? They didn’t want to move their dozens or hundreds of edge infrastructures to the public cloud, because the factories should work independently and autonomously in case of a WAN outage for example. Additionally, some VMware technologies were already deployed at the edge.
VMware Edge Compute Stack
This is why VMware introduced the so-called “Edge Compute Stack” (ECS) in October 2021, which is provides a unified platform to run VMs alongside containerized applications at the far edge (aka enterprise edge). ECS is a purpose-built stack that is available in three different editions (information based on initial availability from VMworld 2021):
As you can see, each VMware Edge Compute Stack edition has the vSphere Enterprise+ (hypervisor) included, software-defined storage with vSAN is optional, but Tanzu for running containers is always included.
While ECS is great, the purpose of this article is about highlighting different solutions and technologies that help you to build the foundation for a digital manufacturing platform.
IT/OT Convergence
You most probably have a mix of home-grown and COTS (commercial off-the-shelf) software, that need to be deployed in your edge locations (e.g., factories, markets, shops etc.). In manufacturing, OT (operational technology) vendors have just started the adoption of container technologies due to unique technology requirements and the business model that relies on proprietary systems.
The OT world is typically very hardware-centric and uses proprietary architectures. These systems and architectures, which were put into production 15-20 years ago, are still functional. It just worked.
While these methods and architectures have been very good, the manufacturing industry realized that this static and inflexible approach resulted in a technology debt, that didn’t allow any innovation for a long period of time.
Manufacturing companies are moving to a cloud-native architecture that should provide more flexibility and vendor interoperability with the same focus in mind: To provide a reliable, scalable and flexible infrastructure.
This is when VMware becomes relevant again with their (edge) compute stack. VMware vSphere allows you to run VMs and containers on the same platform. This is true for IT and OT workloads, that’s IT partial IT/OT covergence.
You may ask yourself how you then would design the network. I’ll answer this topic in a minute.
Kubernetes Operations
IT platform teams, who design and manage the edge have to expand their (VMware) platform capabilities that allow them to deploy and host containers. Like I said before, this is why Tanzu is included in all the VMware Edge Compute Stack editions. Kubernetes is the new Infrastructure-as-a-Service (IaaS) and so it makes only sense that the container deployment and management capability is included.
How do you provide centralized or regional Kubernetes management and operations if you don’t have a global (regional) data center anymore?
With a hybrid approach, by using Tanzu for Kubernetes Operations (TKO), a set of SaaS services that allow you to run, manage, connect and secure your container infrastructure across clouds and edge locations.
IT/OT Security
Now you have the right platform to run your IT and OT workloads on the same hypervisor or compute platform. You also have a SaaS-based control plane to deploy and manage your Kubernetes clusters.
As soon as you are dealing with a very dynamic environment where containers exist, you are having discussions about software-defined networking or virtualized networks. Apart from that, every organization and manufacturer are transforming their network and security at the edge and talk about network segmentation (and cybersecurity!).
Traditionally, you’ll find the Purdue Model implemented, a concept model for industrial control systems (ICS) that breaks the network in two zones:
In these IT and OT zones you’ll find subzones that describe different layers and the ICS components. As you can see as well, each level is secured by a dedicated physical firewall appliance. From this drawing one could say that the IT and OT world converge in the DMZ layer, because of the bidirectional traffic flow.
VMware is one of the pioneers when it comes to network segmentation that helps you driving IT/OT convergence. This is made possible by using network virtualization. As soon as you are using the VMware hypervisor and its integrated virtual switch, you are already using a virtualized network.
To bring IT and OT closer together and to provide a virtualized network design based on the Purdue Model including a zero-trust network architecture, you would start looking at VMware NSX to implement that.
In level 2 of the Purdue Model, which hosts the systems for supervising, monitoring and controlling the physical process, you will find components like human-machine interfaces (HMI) and supervisory control and data acquisition (SCADA) software.
In level 3, manufacturing execution systems (MES) can be found.
Nowadays, most companies already run their HMIs, SCADAs and MES software in virtual machines on the VMware vSphere hypervisor.
The next big thing is the virtualization of PLCs (programmable logic controller), which is an industrial computer that controls manufacturing processes, such as machines, assembly lines and robotic devices. Traditional PLC implementations in hardware are costly and lack scalability.
That is why the company SDA was looking for a less hardware-centric but more software-centric approach and developed the SDA vPLC that is able to meet sub 10ms performance.
This vPLC solution is based on a hybrid architecture between a cloud system and the industrial workload at the edge, which has been tested on VMware’s Edge Compute Stack.
Monitoring & Troubleshooting
One area, which we haven’t highlighted yet, is the monitoring and troubleshooting of virtual machines (VMs). The majority of your workloads are still VM-based. How do you monitor these workloads and applications, deal with resource and capacity planning/management, and troubleshoot, if you don’t have a central data center anymore?
With the same approach as before – just with a cloud-based service. Most organizations rely on vRealize Operations (vROps) and vRealize Log Insight (vRLI) for their IT operations and platform teams gain visibility in all the main and edge data centers.
You can still use vROps and vRLI (on-premises) in your factories, but VMware recommends using the vRealize Cloud Universal (vRCU) SaaS management suite, that gives you the flexibility to deploy your vRealize products on-premises or as SaaS. In an edge use case the SaaS-based control plane just makes sense.
In addition to vRealize Operations Cloud you can make use of the vRealize True Visibility Suite (TVS), that extends your vRealize Operations platform with management packs and connectors to monitor different compute, storage, network, application and database vendors and solutions.
Factory VDI
Some of your factories may need virtual apps or desktops and for edge use cases there are different possible architectures available. Where a factory has a few hundred of concurrent users, a dedicated standalone VDI/RDSH deployment might make sense. What if you have hundreds of smaller factories and don’t want to maintain a complete VDI/RDSH infrastructure?
VMware is currently working on a new architecture for VMware Horizon (aka VMware Horizon Next-Generation) and their goal is to provide a single, unified platform across on-premises and cloud environments. They also plan to do that by introducing a pod-less architecture that moves key components to the VMware-hosted Horizon (Cloud) Control Plane.
This architecture is perfectly made for edge use cases and with this approach customers can reduce costs, expect increased scalability, improve troubleshooting and provide a seamless experience for any edge or cloud location.
Management for Enterprise Wearables
If your innovation and tech team are exploring new possibilities with wearable technologies like augmented reality (AR), mixed reality (MR) and virtual reality (VR) head-mounted displays (HMDs), then VMware Workspace ONE Unified Endpoint Management (UEM) can help you to securely manage these devices!
Workspace ONE UEM is very strong when it comes to the modern management of Windows Desktop and macOS operating systems, and device management (Android/iOS).
Conclusion
As you can see, VMware has a lot to offer for the enterprise edge. Organizations that are multi-cloud and keep their edge locations on-premises, have a lot of new technologies and possibilities nowadays.
VMware’s strengths are unfolded as soon as you combine different solutions. And these solutions help you to work on your priorities and requirements to build the right foundation for a digital manufacturing platform.
According to Gartner, regulated industry customers (such as finance and healthcare) and governments are looking for digital borders. Companies in these sectors are looking to reduce vendor lock-in and single points of failure with their cloud providers, whose data centers sometimes are also outside their country (e.g., Switzerland based customer with an AWS data center in Frankfurt).
The market for cloud technology and services is currently dominated by US and Asian cloud providers and many (European) companies store their data in these regions. There are European regions and data centers, but the geopolitical and legal challenges, concerns about data control, industry compliance and sovereignty are driving the creation of new national clouds.
That is why Gartner sees sovereign clouds as one of the emerging technologies, which is currently at the start of the August 2021 published hype cycle:
As an example and first use case I would mention the Swiss federal administration, which doesn’t see the need for an independent technical infrastructure under public law.
In June 2021 they published the statement that they notified the following cloud providers to become part of the federal administration’s initial multi-cloud architecture:
Amazon Web Services (AWS)
IBM
Microsoft
Oracle
Alibaba
There are several reasons (pricing, market share, local data center availability) that led to this decision to build a multi-cloud architecture with these cloud providers. But it was interesting to read that the government did an assessment and concluded that no technical independent infrastructure is needed – no need for a local sovereign cloud.
This means that they want to keep their existing data centers to provide infrastructure and data sovereignty.
Interestingly, the Swiss confederation is exploring initiatives for secure and trustworthy data infrastructure for Europe and is examining participation in GAIA-X.
Use Case 2 – Current Sovereign Cloud Providers
There are other examples where organizations and governments saw the need for a sovereign cloud. Having a public cloud provider’s data center in the same country does not necessarily mean, that it’s a sovereign cloud per se. Hyperscale clouds often rely on non-domestic resources that maintain their data centers or provide customer support.
Governments and regulated industries say that you need domestic resources to provide a true sovereign cloud.
A good example here is the UK government, who has chosen the provider UKCloud, that delivers a consistent experience that spans the edge, private cloud and sovereign cloud.
Another VMware sovereign cloud provider is AUCloud, who provides IaaS to the Australian government, defense, defense industries and Critical National Industry (CNI) communities.
The third example I would like to highlight is Saudi Telecom Company (STC), that brings sovereign cloud services to Saudi Arabia.
What do UKCloud, AUCloud and STC have in common? They all joined the pretty new VMware Sovereign Cloud initiative and built their sovereign clouds based on VMware technology.
Use Case 3 – Cloud Act
Another motivation for a sovereign cloud could be the Cloud Act, which is a U.S. law that gives American authorities unrestricted access to the data of American IT cloud providers. It does not matter where the data is effectively stored. In the event of a criminal prosecution, the authorities have a free hand and do not even have to notify the data owners.
What does this mean for cloud users? Because of the Cloud Act, they cannot be sure whether when and to what extent their data or the data of their customers will be read by foreign authorities.
Use Case 4 – GAIA-X
Let me quote the official explanation of GAIA-X:
The architecture of Gaia-X is based on the principle of decentralization. Gaia-X is the result of many individual data owners (users) and technology players (providers) – all adopting a common standard of rules and control mechanisms – the Gaia-X standard.
Together, we are developing a new concept of data infrastructure ecosystem, based on the values of openness, transparency, sovereignty, and interoperability, to enable trust. What emerges is not a new cloud physical infrastructure, but a software federation system that can connect several cloud service providers and data owners together to ensure data exchange in a trusted environment and boost the creation of new common data spaces to create digital economy.
Gaia-X aims to mitigate Europe’s dependency on non-European providers and there seems to be no pre-defined architecture or preferred vendor when it comes to the underlying cloud platform GAIA-X sits on top.
While one would believe that a sovereign cloud is mandatory for GAIA-X, it looks more like a cloud-agnostic data exchange platform hosted by European providers and customers.
I am curious how providers build, operate and maintain a sovereign cloud stack based on open-source software.
How real is the need for Sovereign Cloud?
If a company or government wants to keep, extend, and maintain their own local data centers, this is still a valid option of course. But the above examples showed that the need for sovereign clouds exists and that the global interest seems to be growing.
What is the VMware Sovereign Cloud Initiative?
In October 2021 VMware announced their VMware Sovereign Cloud initiative where they partnering with cloud service providers to deliver a sovereign cloud infrastructure with cloud services on top to customers in regulated industries.
To become a so-called VMware Sovereign Cloud Provider, partners must go through an assessment and meet specific requirements (framework) to show their capability to provide a sovereign cloud infrastructure.
VMware defines a sovereign cloud as one that:
Protects and unlocks the value of critical data (e.g., national data, corporate data, and personal data) for both private and public sector organizations
Delivers a national capability for the digital economy
Secures data with audited security controls
Ensures compliance with data privacy laws
Improves control of data by providing both data residency and data sovereignty with full jurisdictional control
VMware aims to help regulated industry and government customers to execute their cloud strategies by connecting them to VMware Sovereign Cloud Providers (like UKCloud, AUcloud, STC, Tietoevry, ThinkOn or OVHcloud).
Sovereign Cloud Providers in Switzerland
Currently, there is no official VMware sovereign cloud provider in Switzerland. We have a few and strong VMware cloud provider partners as part of the VMware Cloud Provider Program (VCPP):
Let us come back to the use case 1 with the Swiss federal administration. They are building a multi-cloud and would have in Switzerland a potential number of at least 10 cloud service providers, which could become an official VMware Sovereign Cloud Provider.
There are other Swiss providers who are building a sovereign cloud based on open-source technologies like OpenStack.
Hyperscalers like Microsoft or Google need to partner with local providers if they want to build a sovereign cloud and deliver services.
VMware already has 4300+ partners with the strategic partnerships and the same technology stack in 120+ countries and some of them are already sovereign cloud providers as mentioned before.
What are the biggest challenges with a multi-cloud and a sovereign cloud infrastructure?
What do you think are the biggest challenges of an organization that builds a multi-cloud with different public cloud providers and sovereign clouds?
Let me list a few questions here:
How can I easily migrate my workloads to the public or sovereign cloud?
How long does it take to migrate my applications?
Which cloud is the right one for a specific workload?
Do I need to refactor some of my applications?
How can I consistently manage and operate 5 different public/sovereign cloud providers?
What if I one of my cloud providers is not strategic anymore? How can I build a cloud exit strategy?
How do I implement and maintain security?
What if I want to migrate workloads back from a public cloud to an on-premises (sovereign) cloud?
Which Kubernetes am I going to use in all these different clouds?
How do I manage and monitor all these different Kubernetes clusters, networking and security policies, create secure application communication between clouds and so on?
How do I control costs?
These are just a small number of questions, but I think it would take your organization or your cloud platform team a while to come up with a solution.
What is the VMware approach? Let me list some other articles of mine that help you to better understand the VMware multi-cloud approach:
Public cloud providers build local data centers and provide data residency. Sovereign clouds provide data sovereignty. Resident data may be accessed by a foreign authority while data sovereignty refers to data being subject to privacy laws and governance structures within the nation where that data is collected.
Controlling the location and access of data in the cloud has become an important task for CIOs and CISOs and I personally believe that sovereign clouds are not becoming important in 2 or 3 years, they are already very important and relevant, and we can expect a growth in this area in the next months.
My conclusion here is, that sovereign clouds and the public clouds are not competitors, they complement each other.
My name is Michael Rebmann. I am an Enterprise Account Manager at Nutanix, helping public sector organizations design sovereign and compliant cloud infrastructures. I focus on sovereign cloud, hybrid multi-cloud architectures, and data privacy in regulated industries.
The views and opinions expressed here are entirely my own, reflecting my journey and insights.
