Hyper-Converged Infrastructure, Application Infrastructure
Article | July 19, 2023
Data Center as a Service (DCaaS) is a hosting service that gives clients access to actual data center infrastructure and amenities. Through a Wide-Area Network, DCaaS enables clients to remotely access the provider's storage, server, and networking capabilities (WAN).
Businesses can tackle their on-site data center's logistical and financial issues by outsourcing to a service provider. Many enterprises rely on DCaaS to overcome the physical constraints of their on-site infrastructure or to offload the hosting and management of non-mission-critical applications.
Businesses that require robust data management solutions but lack the necessary internal resources can adopt DCaaS. DCaaS is the perfect answer for companies that are struggling with a lack of IT help or a lack of funding for system maintenance.
Added benefits data Center as a Service allows businesses to be independent of their physical infrastructure:
A single-provider API
Data centers without Staff
Effortlessly handle the influx of data
Data centers in regions with more stable climates
Data Center as a Service helps democratize the data center itself, allowing companies that could never afford the huge investments that have gotten us this far to benefit from these developments. This is perhaps the most important, as Infrastructure-as-a-Service enables smaller companies to get started without a huge investment.
Conclusion
Data center as a service (DCaaS) enables clients to access a data center remotely and its features, whereas data center services might include complete management of an organization's on-premises infrastructure resources. IT can be outsourced using data center services to manage an organization's network, storage, computing, cloud, and maintenance. The infrastructure of many businesses is outsourced to increase operational effectiveness, size, and cost-effectiveness.
It might be challenging to manage your existing infrastructure while keeping up with the pace of innovation, but it's critical to be on the cutting edge of technology. Organizations may stay future-ready by working with a vendor that can supply DCaaS and data center services.
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Hyper-Converged Infrastructure
Article | September 14, 2023
Driving excellence in HCI: Unveil the crucial role of managed service providers in deploying and managing Hyper-Converged Infrastructure for optimal performance and efficiency for smooth functioning.
Contents
1. Introduction
2. Role of MSPs in Deployment of HCI
3. Role of MSPs in HCI’s Management
4. Key Areas Where MSPs Help Drive Efficient HCI
4.1. Expert Deployment and Configuration
4.2. Proactive Monitoring and Management
4.3. Performance Optimization
4.4. Security and Compliance
4.5. Patch Management and Upgrades
4.6. Scalability and Flexibility
4.7. Cost Optimization
4.8. 24/7 Support and Incident Management
5. Takeaway
1. Introduction
Fundamentally, a hyper-converged infrastructure comprises virtual computing, virtual hyperconverged network, and virtual SAB. However, deploying this infrastructure is a complex procedure that requires skill and attention. A managed service provider (MSP) can assist a business in implementing hyper-converged infrastructure. These are service providers that specialize in managing and maintaining hyper-converged infrastructure environments on behalf of businesses. They offer proactive monitoring, maintenance, and troubleshooting services to ensure optimal performance & availability and management excellence in HCI.
2. Role of MSPs in Deployment of HCI
Managed service providers play a crucial role in the successful deployment of Hyperconverged Infrastructure. With their expertise and experience, MSPs assist businesses in planning and designing the optimal HCI solution tailored to their needs. They manage the integration of hardware and software components, ensuring compatibility and seamless integration into the existing IT infrastructure. MSPs handle data migration and transition, minimizing downtime and data loss. They also optimize performance by fine-tuning configurations and resource allocations to achieve optimal HCI operation. MSPs prioritize security and compliance, implementing robust measures to protect sensitive data and ensure regulatory compliance. They provide ongoing management and support, monitoring system health, performing maintenance, and addressing issues promptly. MSPs enable scalability and future-proofing, helping businesses scale their HCI environment as needed and ensuring flexibility for future technology advancements and changes in business requirements. Broadly, MSPs bring their specialized knowledge and services to navigate the complexities of HCI deployment, enabling businesses to maximize the benefits of this transformative HCI technology.
3. Role of MSPs in HCI’s Management
Managed service providers play a crucial role in the effective management of HCI. MSPs offer a range of services to ensure the optimal performance and security of HCI environments. They proactively monitor and maintain the HCI infrastructure, identifying and addressing issues before they impact operations. MSPs specialize in performance optimization, fine-tuning configurations, and implementing load balancing techniques to maximize efficiency. They prioritize security and compliance by implementing robust measures and assisting with data backup and disaster recovery strategies. MSPs also assist with capacity planning and scalability, ensuring resources are efficiently allocated and businesses can adapt to changing demands. They provide 24/7 support, troubleshooting services, and comprehensive reporting and analytics for HCI management excellence. Additionally, MSPs handle vendor management, simplifying interactions with hardware and software providers. Overall,
MSPs enable businesses to effectively manage their HCI environments, ensuring smooth operations, optimal performance, and security.
4. Key Areas Where MSPs Help Drive Efficient HCI
Managed Service Providersplay a crucial role in driving deployment and management excellence in Hyperconverged Infrastructure (HCI) environments. HCI combines storage, compute, and networking into a single, software-defined platform, simplifying data center operations. Here's how MSPs contribute to HCI excellence:
1. Expert Deployment and Configuration
MSPs possess deep expertise in HCI deployments. They understand the complexities of hardware, software, and networking integration required for optimal HCI implementation. MSPs ensure proper configuration, capacity planning, and performance tuning to maximize HCI efficiency and meet specific business needs.
2. Proactive Monitoring and Management
MSPs provide proactive monitoring and management services, continuously monitoring the HCI environment to detect issues and resolve them before they impact performance or availability. They leverage advanced monitoring tools and technologies to monitor resource utilization, network connectivity, and storage performance, ensuring optimal HCI operation.
3. Performance Optimization
MSPs specialize in fine-tuning HCI performance. They analyze workloads, assess resource requirements, and optimize configurations to ensure optimal performance and scalability. Through proactive capacity planning and performance optimization techniques, MSPs help businesses extract the maximum value from their HCI investment.
4. Security and Compliance
MSPs prioritize security and compliance in HCI environments. They implement robust security measures, such as encryption, access controls, and threat detection systems, to protect critical data and ensure compliance with industry regulations. MSPs also assist businesses in implementing data backup and disaster recovery strategies to safeguard against potential data loss or system failures.
5. Patch Management and Upgrades
MSPs handle patch management and upgrades in HCI environments. They ensure that the HCI platform stays up to date with the latest security patches and software updates, minimizing vulnerabilities and ensuring hyperconverged system stability. MSPs coordinate and execute seamless upgrades, minimizing disruptions and maintaining optimal HCI performance.
6. Scalability and Flexibility
MSPs help businesses scale and adapt their HCI environments to meet changing demands. They assess growth requirements, optimize resource allocation, and implement expansion strategies to accommodate evolving business needs. MSPs enable businesses to scale their HCI infrastructure seamlessly without compromising performance or availability.
7. Cost Optimization
MSPs assist in optimizing costs associated with HCI deployments. They evaluate resource utilization, identify inefficiencies, and implement cost-saving measures, such as workload consolidation and resource allocation optimization. MSPs help businesses achieve maximum return on investment by aligning HCI infrastructure with specific business objectives.
8. 24/7 Support and Incident Management
MSPs offer round-the-clock support and incident management for HCI environments. They provide timely resolution of issues, minimizing downtime and ensuring continuous operation. MSPs also offer help desk services, ticket management, and proactive troubleshooting to address any challenges that arise in the HCI environment.
5. Takeaway
The future of managed service providers is promising and dynamic. MSPs will continue to enhance their specialized expertise in HCI, offering comprehensive support for businesses' HCI environments. They will expand their services to include end-to-end managed hyperconverged solutions, covering deployment, ongoing management, performance optimization, and security. Automation and orchestration will play a significant role as MSPs leverage these technologies to streamline operations and improve efficiency. MSPs will also focus on strengthening security and compliance measures, integrating HCI with cloud services, and continuously innovating to stay ahead in the HCI landscape. Broadly, MSPs will be vital partners for businesses seeking to maximize the benefits of HCI while ensuring smooth operations and staying competitive in the digital era.
MSPs in HCI offer specialized expertise, managed services, automation, AI-driven analytics, enhanced security and compliance, integration with hyper converged cloud services, and continuous innovation. Their services will cover the entire lifecycle of HCI, from deployment to ongoing management and optimization. MSPs will leverage automation and AI technologies to streamline operations, enhance security, and provide proactive monitoring and maintenance. They will assist businesses in integrating HCI with cloud services, ensuring scalability and flexibility. MSPs will continuously innovate to adapt to emerging technologies and industry trends, supporting businesses in harnessing the full potential of HCI and achieving their digital transformation goals.
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Hyper-Converged Infrastructure
Article | October 3, 2023
In my last blog in this series, we looked at the present state of 5G. Although it’s still early and it’s impossible to fully comprehend the potential impact of 5G use cases that haven’t been built yet, opportunities to monetize 5G with little additional investment are out there for network service providers (NSPs) who know where to look.
Now, it’s time to look toward the future. Anyone who’s been paying attention knows that 5G technology will be revolutionary across many industry use cases, but I’m not sure everyone understands just how revolutionary, and how quickly it will go down. According to Gartner®, “While 10% of CSPs in 2020 provided commercializable 5G services, which could achieve multiregional availability, this number will increase to 60% by 2024”.[i]
With so many recognizing the value of 5G and acting to capitalize on it, NSPs that fail to prepare for future 5G opportunities today are doing themselves and their enterprise customers a serious disservice. Preparing for a 5G future may seem daunting but working with a trusted interconnection partner like Equinix can help make it easier.
5G is so challenging for NSPs and their customers because it is so revolutionary. Mobile radio networks were built with consumer use cases in mind, which means the traffic from those networks is generally dumped straight to the internet. 5G is the first generation of wireless technology capable of supporting enterprise-class business applications, which means it’s also forcing many NSPs to consider alternatives to the public internet to support those applications.
User plane function breakout helps put traffic near the app
In my last article, I mentioned that one of the key steps mobile network operators (MNOs) could take to enable 5G monetization in the short term would be to bypass the public internet by enabling user traffic functions in the data center. This is certainly a step in the right direction, but to prepare themselves for future 5G and multicloud opportunities, they must go further by enabling user plane function (UPF) breakout.
The 5G opportunities of tomorrow will rely on wireless traffic residing as close as possible to business applications, to reduce the distance data must travel and keep latency as low as possible. This is a similar challenge to the one NSPs faced in the past with their wireline networks. To address that challenge, they typically deployed virtual network functions (VNFs) on their own equipment. This helped them get the network capabilities they needed, when and where they needed them, but it also required them to buy colocation capacity and figure out how to interconnect their VNFs with the rest of their digital infrastructure.
Instead, Equinix customers have the option to do UPF breakout with Equinix Metal®, our automated bare-metal-as-a-service offering, or Network Edge virtual network services on Platform Equinix®. Both options provide a simple, cost-effective way to get the edge infrastructure needed to support 5G business applications. Since both offerings are integrated with Equinix Fabric™, they allow NSPs to create secure software-defined interconnection with a rich ecosystem of partners. This streamlines the process of setting up hybrid deployments.
Working with Equinix can help make UPF breakout less daunting. Instead of investing massive amounts of money to create 5G-ready infrastructure everywhere they need it, they can take advantage of more than 235 Equinix International Business Exchange™ (IBX®) data centers spread across 65 metros in 27 countries on five continents. This allows them to shift from a potentially debilitating up-front CAPEX investment to an OPEX investment spread over time, making the economics around 5G infrastructure much more manageable.
Support MEC with a wide array of partners
Multiaccess edge compute (MEC) will play a key role in enabling advanced 5G use cases, but first enterprises need a digital infrastructure capable of supporting it. This gets more complicated when they need to modernize their infrastructure while maintaining existing application-level partnerships. To put it simply, NSPs and their enterprise customers need an infrastructure provider that can not only partner with them, but also partner with their partners.
With Equinix Metal, organizations can deploy the physical infrastructure they need to support MEC at software speed, while also supporting capabilities from a diverse array of partners. For instance, Equinix Metal provides support for Google Anthos, Amazon Elastic Container Service (ECS) Anywhere and Amazon Elastic Kubernetes Service (EKS) Anywhere. These are just a few examples of how Equinix interconnection offerings make it easier to collaborate with leading cloud providers to deploy MEC-driven applications.
Provision reliable network slicing in a matter of minutes
Network slicing is another important 5G capability that can help NSPs differentiate their offerings and unlock new business opportunities. On the surface, it sounds simple: slicing up network traffic into different classes of service, so that the most important traffic is optimized for factors such as high throughput, low latency and security. However, NSPs won’t always know exactly what slices their customers will want to send or where they’ll want to send them, making network slice mapping a serious challenge.
Preparing for a 5G future may seem daunting but working with a trusted interconnection partner like Equinix can help make it easier.”
Equinix Fabric offers a quicker, more cost-effective way to map network slices, with no need for cross connects to be set on the fly. With software-defined interconnection, the counterparty that receives the network slice essentially becomes an automated function that NSPs can easily control. This means NSPs can provision network slicing in a matter of minutes, not days, even when they don’t know who the counterparty is going to be. Service automation enabled by Equinix Fabric can be a critical element of an NSP’s multidomain orchestration architecture.
5G use case: Reimagining the live event experience
As part of the MEF 3.0 Proof of Concept showcase, Equinix partnered with Spectrum Enterprise, Adva, and Juniper Networks to create a proof of concept (PoC) for a differentiated live event experience. The PoC showed how event promoters such as minor league sports teams could ingest multiple video feeds into an AI/ML-driven GPU farm that lives in an Equinix facility, and then process those feeds to present fans with custom content on demand.
With the help of network slicing and high-performance MEC, fans can build their own unique experience of the event, looking at different camera angles or following a particular player throughout the game. Event promoters can offer this personalized experience even without access to the on-site data centers that are more common in major league sports venues.
DISH taps Equinix for digital infrastructure services in support of 5G rollout
As DISH looks to build out the first nationwide 5G network in the U.S., they will partner with Equinix to gain access to critical digital infrastructure services in our IBX data centers. This is a great example of how Equinix is equipped to help its NSP partners access the modern digital infrastructure needed to capitalize on 5G—today and into the future.
DISH is taking the lead in delivering on the promise of 5G in the U.S., and our partnership with Equinix will enable us to secure critical interconnections for a nationwide 5G network. With proximity to large population centers, as well as network and cloud density, Equinix is the right partner to connect our cloud-native 5G network.”
- Jeff McSchooler, DISH executive vice president of wireless network operations
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Application Infrastructure
Article | May 9, 2022
We’re all hoping that 2022 will finally end the unprecedented challenges brought by the global pandemic and things will return to a new normalcy. For IT infrastructure and operations organizations, the rising trends that we are seeing today will likely continue, but there are still a few areas that will need special attention from IT leaders over the next 12 to 18 months.
In no particular order, they include:
The New Edge
Edge computing is now at the forefront. Two primary factors that make it business-critical are the increased prevalence of remote and hybrid workplace models where employees will continue working remotely, either from home or a branch office, resulting in an increased adoption of cloud-based businesses and communications services.
With the rising focus on remote and hybrid workplace cultures, Zoom, Microsoft Teams, and Google Meet have continued to expand their solutions and add new features. As people start moving back to office, they are likely to want the same experience they had from home. In a typical enterprise setup, branch office traffic is usually backhauled all the way to the data center. This architecture severely impacts the user experience, so enterprises will have to review their network architectures and come up with a roadmap to accommodate local egress between branch offices and headquarters. That’s where the edge can help, bringing it closer to the workforce.
This also brings an opportunity to optimize costs by migrating from some of the expensive multi-protocol label switching (MPLS) or private circuits to relatively low-cost direct internet circuits, which is being addressed by the new secure access service edge (SASE) architecture that is being offered by many established vendors.
I anticipate some components of SASE, specifically those related to software-defined wide area network (SD-WAN), local egress, and virtual private network (VPN), will drive a lot of conversation this year.
Holistic Cloud Strategy
Cloud adoption will continue to grow, and along with software as a service (SaaS), there will be renewed interest in infrastructure as a service (IaaS), albeit for specific workloads. For a medium-to-large-sized enterprise with a substantial development environment, it will still be cost-prohibitive to move everything to the cloud, so any cloud strategy would need to be holistic and forward-looking to maximize its business value.
Another pandemic-induced shift is from using virtual machines (VMs) as a consumption unit of compute to containers as a consumption unit of software. For on-premises or private cloud deployment architectures that require sustainable management, organizations will have to orchestrate containers and deploy efficient container security and management tools.
Automation
Now that cloud adoption, migration, and edge computing architectures are becoming more prevalent, the legacy methods of infrastructure provisioning and management will not be scalable.
By increasing infrastructure automation, enterprises can optimize costs and be more flexible and efficient—but only if they are successful at developing new skills. To achieve the goal of “infrastructure as a code” will require a shift in the perspective on infrastructure automation to one that focuses on developing and sustaining skills and roles that improve efficiency and agility across on-premises, cloud, and edge infrastructures. Defining the roles of designers and architects to support automation is essential to ensure that automation works as expected, avoids significant errors, and complements other technologies.
AIOps (Artificial Intelligence for IT Operations)
Alongside complementing automation trends, the implementation of AIOps to effectively automate IT operations processes such as event correlation, anomaly detection, and causality determination will also be important. AIOps will eliminate the data silos in IT by bringing all types of data under one roof so it can be used to execute machine learning (ML)-based methods to develop insights for responsive enhancements and corrections.
AIOps can also help with probable cause analytics by focusing on the most likely source of a problem. The concept of site reliability engineering (SRE) is being increasingly adopted by SaaS providers and will gain importance in enterprise IT environments due to the trends listed above. AIOps is a key component that will enable site reliability engineers (SREs) to respond more quickly—and even proactively—by resolving issues without manual intervention.
These focus areas are by no means an exhaustive list. There are a variety of trends that will be more prevalent in specific industry areas, but a common theme in the post-pandemic era is going to be superior delivery of IT services. That’s also at the heart of the Autonomous Digital Enterprise, a forward-focused business framework designed to help companies make technology investments for the future.
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