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Vmware: Part 3: Enterprise Grade Load Balancer For Vmware Cloud On Aws
VMware Cloud On allows you to rapidly migrate VMware workloads to a VMware-managed Software Defined Data Center (SDDC) running in the cloud and your on-premises data centers without platform or refactoring applications. Extends.
You can use local services with virtual machines (VMs) in the SDDC, to reduce operational overhead and lower your total cost of ownership (TCO) while increasing the agility and scalability of your workloads. can be done
This post covers communication patterns between native services and VMware workloads. We also explore common integrations, including using cloud storage from the SDDC, securing VM workloads using networking services, and using database and analytics services with workloads in the SDDC.
Establishing strong network connectivity with VMware Cloud SDDC VMs is critical to successfully integrating services. This section shows you the various options for connecting VMware SDDC to your local account.
Vmware Cloud On Aws With Nsx: Communicating With Native Aws
The easiest way to get started is to use the services in the connected Amazon Virtual Private Cloud (VPC) that is selected during the SDDC deployment process. Figure 1 shows the connectivity, which is automatically configured and available after the SDDC is deployed.
The SDDC Elastic Network Interface (ENI) allows you to connect to local services within a connected VPC, but it does not provide transitive routing beyond the connected VPC. For example, it will not connect the SDDC to other VPCs and the Internet.
If you want to connect to local services across multiple accounts and VPCs in the same region, you have two connectivity options. These are explained in the following sections.
Use VMware Transit Connect (VTGW) when you need high-throughput connectivity in a multi-VPC environment, as shown in Figure 2.
Storage Options And Designs For Vmware Cloud On Aws
VTGW uses a VMware-managed transit gateway to interconnect SDDCs within an SDDC group. It also allows you to connect your VPCs to VTGW in the same region by providing connectivity to any SDDC within the SDDC group.
To connect to your VPCs through the transit gateway in your account, use an IPsec virtual private network (VPN) connection with Border Gateway Protocol (BGP)-based routing from the SDDC, as shown in Figure 3 . Multiple IPsec tunnels to the transit gateway use equal-cost multipath routing, which increases bandwidth by load-balancing traffic.
For scalable, high-throughput connectivity to an existing transit gateway, connect to the SDDC through a transit VPC that is connected to the VTGW, as shown in Figure 3. You must manually configure routes between VPCs and SDDC for this architecture.
In the following sections, we’ll show you how to use some of these connectivity options for common local services integration with VMware SDDC workloads.
Vmware Cloud On Aws Monitoring
As you size your VMware Cloud on SDDC, consider using cloud storage for VMs that provide file services or require object storage. Moving these workloads to cloud storage such as Amazon Simple Storage Service (Amazon S3), Amazon Elastic File System (Amazon EFS), or Amazon FSx can reduce your overall TCO through optimized SDDC sizing.
Additionally, you can reduce the undifferentiated heavy lifting involved in deploying and managing complex architectures for file services in VM disk. Figure 4 shows how these services integrate with VMs in the SDDC.
We recommend connecting to your S3 bucket in a connected VPC through a VPC Gateway endpoint. This is a more cost-effective approach as it avoids the data processing costs associated with PrivateLink for VTGW and Amazon S3.
Similarly, the recommended approach for Amazon EFS and Amazon FSx is to deploy services in a connected VPC for VM access through SDDC elastic network interfaces. You can also connect to existing Amazon EFS and Amazon FSx file shares in other accounts and VPCs using VTGW, but consider data migration costs first.
Evolvers Spotlight: Vmware Cloud On Aws Tco Calculator
Using different networking and content delivery services with VMware Cloud on workloads will provide robust traffic management, security, and faster content delivery. Figure 5 shows how networking and content delivery services integrate with workloads running on VMs.
Deploy Elastic Load Balancing (ELB) services in a VPC subnet that has network access to the SDDC VMs. This includes VPCs connected to SDDC elastic network interfaces, VPCs connected via VTGW, and VPCs connected to SDDC-connected transit gateways.
VTGW connectivity should be used when the design requires the use of existing networking services in other VPCs. For example, if you have a dedicated Internet ingress/egress VPC. An internal ELB can also be used for load balancing traffic between services running in SDDC VMs and services running within VPCs.
Use Amazon CloudFront, a global content delivery service, to integrate with load balancers, S3 buckets for static content, or directly with publicly accessible SDDC VMs. Additionally, use Amazon Route 53 to provide public and private DNS services for VMware Cloud On. Deploy services such as WAF and Shield to provide comprehensive network security for VMware workloads in SDDC.
Everything You Need To Know About Vmware Cloud On Aws
Data is one of the most valuable assets in an organization, and databases are often the most demanding and critical workloads that run in an on-premises VMware environment.
A common customer pattern is to use purpose-built databases like Amazon Relational Database Service (RDS) to reduce TCO for storage-heavy or memory-intensive databases. Amazon RDS lets you move on-premises relational databases to the cloud and integrate them with SDDC VMs. Using a database also reduces the operational overhead you may incur for tasks associated with availability, scalability, and disaster recovery (DR) management.
With analytics services integration, you can leverage the proximity of data within the VMware cloud to data stores to gain meaningful insights from your business data. For example, you can use Amazon Redshift to create a data warehouse to run analytics at scale on data related to transactional systems, operational databases, and line-of-business applications running within SDDC.
We recommend deploying and using database services in a coordinated VPC. If you have existing databases in other accounts or VPCs that require integration with VMware VMs, integrate them using VTGW.
Amazon Fsx For Netapp Ontap Integration With Vmware Cloud On Aws
Analytics services can involve ingesting large amounts of data from various sources, including from VMs within the SDDC, which generates a significant amount of data traffic. In such situations, we recommend using a VPC connected to an SDDC to implement any required interface endpoints for analytics services to achieve a cost-effective architecture.
VMware Cloud on on-premises is one of the fastest ways to move VMware workloads to the cloud. In this blog post, we provided different architecture options for integrating SDDC with native services. It lets you evaluate your needs to choose the most cost-effective option for your workload.
The examples covered in this post are typical service integration, including storage, network, and database. They are a great starting point, but the possibilities are endless. Integrating services like Amazon Machine Learning (Amazon ML), and Serverless on allows you to deliver advanced services to your customers, often without refactoring existing application backends running on the VMware cloud.
If you need to integrate VMware Cloud On with a service, explore the following resources and contact us.
Harness The Advantages Of Druva And Vmware Cloud On Aws
Architecture Center Well Architecture Architecture Monthly White Papers Training and Certification Here’s My Architecture VMware Cloud is an out-of-the-box service on AWS that lets you spin up VMware SDDC within the AWS Cloud. This functionality is available on Megaport’s global Software Defined Network (SDN).
VMware Cloud on AWS provides many advantages, including the ability to take a slow and low-risk approach to cloud adoption. You can augment existing on-premises infrastructure with cloud resources for growth. This solution prevents the need for new capital expenditures on equipment while providing the ability to scale up and/or scale workloads in the cloud. It also allows you to take full advantage of your existing equipment and infrastructure while it is still in a productive and usable state if you are considering an eventual full migration to the cloud.
AWS has partitioned its physical data center spaces to accommodate VMware infrastructure. VMware software is implemented directly on AWS bare metal. Support and management functions, such as software patching and upgrades, are performed by VMware while physical devices are managed by AWS. You are in control of your VMs and are delegated access to vSphere.
By using Megaport as a service provider in your network, you can seamlessly deploy Virtual Interface (VIF) for VMware consumption to AWS Direct Connect from their on-premise data center infrastructure. can do
Horizon On Vmc On Aws Basics
The following images highlight the components associated with a customer’s on-premises environment connecting to a port to reach VMware Cloud On.
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