Mon, 08 Jul 2024 20:03:40 -0000
|Read Time: 0 minutes
Many Communication Service Providers (CSPs) are embarking on the journey of transforming their current legacy OSS/BSS to an open, cloud-native NextGen Ops architecture for full 5G monetization. Recognizing the complexity of this journey, we are working closely with leading OSS/BSS providers to help simplify the process.
One way we are doing this is by pre-certifying OSS/BSS workloads on Dell infrastructure. By ensuring multi-vendor workload stacks are pre-certified, Dell aims to reduce a CSP’s upfront work and provide confidence in the solution’s effectiveness.
Our latest collaboration with Amdocs underscores our commitment to helping CSPs accelerate their transformation. We have integrated Dell Telecom Infrastructure Blocks with the Amdocs’ Policy and Charging Control (PCC) function. This powerful, pre-certified solution, thoroughly tested and validated, offers a great starting point for CSPs to simplify their transformation and accelerate their time-to-value for 5G services.
The combined solution is an end-to-end, cloud-native policy and charging solution, pre-certified on Telecom Infrastructure Blocks with Red Hat. Amdocs’ PCC, the network’s “brain”, is equipped with the routing intelligence necessary for network slicing, edge policy enforcement, least cost routing, and other policy-driven features.
It is the key to managing the essential service characteristics of the 5G network—the who, what, when, where, and how of access control. Additionally, the charging component of PCC supports the monetization of 5G services, and it is a fully cloud-native, microservices-based charging system. This means that it consolidates previously separate capabilities into a single solution, deployable in a private, public, or hybrid cloud environment.
Together, the policy and charging functions allow CSPs to take center stage in the 5G value chain as they develop and monetize new services based on 5G network features such as latency, speed, coverage, capacity, and security. Building this on top of Telecom Infrastructure Block with Red Hat software enables CSPs to deploy these workloads on a scalable, manageable cloud-native architecture that adapts to changing demands.
The Telecom Infrastructure Blocks with Red Hat form the body of the 5G cloud-native network, supporting both the network core functions and NextGen Ops workloads. These blocks include all the hardware, software, and automation required to rapidly build and effectively scale out a telco cloud, including critical workloads like policy and charging. Dell and Red Hat have undergone extensive certification, integration, and validation to ensure product compatibility. This pre-engineered solution was further tested with Amdocs PCC to ensure all the components worked together seamlessly.
5G has been challenging for many CSPs, particularly on the integration side. To alleviate this, Dell and Amdocs have been working together to streamline the process. This is what Dell, Red Hat, and Amdocs achieve with their pre-certified solution, developed in Dell’s Open Telecom Ecosystem Lab (OTEL). We are not only contributing our technology but remaining committed until we can certify and validate the seamless integration of our products.
From this work, four immediate benefits for CSPs emerge that boost their chance of success in the 5G world:
This solution aligns with our vision of how 5G should be: scalable, flexible, innovative, and simpler than its predecessors. If you are considering breaking down legacy OSS/BSS silos and transitioning to cloud-native NextGen Ops, see the latest Dell and Amdocs solution.
Mon, 27 Feb 2023 07:00:00 -0000
|Read Time: 0 minutes
Open RAN promises to enable communication service providers (CSPs) with choice and flexibility by opening up the interfaces of the RAN system to enable multi-vendor solutions. However, opening up RAN interfaces creates integration challenges that must be solved. This process includes fully integrating and testing multi-vendor solutions, while gaining the CSP's trust that the solution will provide the reliability their customers have come to expect. Simplifying this process can help accelerate the adoption of Open RAN.
Dell Technologies and Samsung are collaborating to solve Open RAN challenges and support seamless multi-vendor solution integration. Samsung will work alongside Dell to integrate Samsung’s virtualized centralized unit (vCU) and distributed unit (vDU) software with Dell Poweredge XR8000 and XR5610 servers, which are purpose-built for RAN environments and provide the performance and power consumption characteristics required in RAN deployments.
The companies will also offer a flexible model for joint customer engagements and deliver post-sales support to customers.
“Network operators are on the journey of transforming to open technologies, but they need help validating and testing the various solutions for their networks,” said Andrew Vaz, vice president of product management, Dell Technologies Telecom Systems Business. “Together with Samsung, our aim is to provide validated, price performant RAN solutions that network operators can confidently deploy in their networks.”
“We constantly strive to deliver products and solutions that meet the exceptional standards of global network operators, keeping flexibility, reliability and performance top of mind,” said Wook Heo, vice president, head of business operation, networks business, Samsung Electronics. “We have a robust ecosystem of partners and we look forward to continue working together with Dell to drive innovation to the next level, helping operators scale their open and virtualized networks.”
Open RAN promotes multi-vendor technologies to give CSPs more choice and flexibility. Collaborations like Dell and Samsung will help the industry overcome current Open RAN integration challenges to propel Open RAN forward.
Fri, 06 Aug 2021 14:09:17 -0000
|Read Time: 0 minutes
There is little doubt that communication service providers (CSPs) will need to extend and increase their RAN capacity to accommodate new 5G services. CSPs are using their 5G buildouts as an opportunity to move away from legacy, proprietary RAN technology to an Open RAN architecture. Current legacy RAN technology has some advantages, such as performance, and it is a complete end-to-end solution with one neck to choke for support. However, the proprietary and closed interfaces have resulted in a lack of innovation and overall control of the RAN, frustrating CSPs and motivating them to look for an alternative solution. As they transition to 5G, the ability to innovate at the edge of the network and meet the performance and latency requirements is critical to take full advantage of what 5G offers.
Open RAN standardizes the interfaces between the radio unit (RU), distributed unit (DU), and centralized unit (CU), opening the door for new RAN vendors and drive new, innovative solutions. The open interfaces enable a diversity of suppliers, increasing flexibility for CSPs as they can choose which vendors they want to deploy. This will result in multivendor solutions, a drastic change from the current RAN environment of proprietary vendor lock-in solutions.
Along with the promise of no vendor lock-in and accelerated innovation, Open RAN also brings about some new challenges. Open RAN's flexibility enables CSPs to pick and choose which vendors they deploy in their network will also create some complexities. For example, a CSP might choose to deploy one RAN vendor in one geographic location and another RAN vendor in another location based on cost, performance, and customer needs. Or, a CSP could utilize one vendor for the virtualized Distributed Unit (vDU) at the cell site and another vendor for the virtualized Centralized Unit (vCU) as an aggregation point in the network. As great as having this flexibility is for CSPs, it also creates complexities since multiple vendors must be integrated to work together seamlessly into one solution.
To help alleviate this challenge, Dell Technologies is working with a diverse and loosely coupled open ecosystem of partners to develop validated solutions that will alleviate some of the integration complexities of multivendor solutions. Together with our partners Intel, VMware, and Mavenir, we've developed an Open RAN solution reference architecture that is now available to CSPs as a technology preview. The preview offers a complete Open RAN solution, including Mavenir's virtualized, containerized vCU, vDU, vRU functions, VMware's telco cloud platform, and orchestration tools deployed on Dell's telco-grade PowerEdge servers featuring Intel scalable processors. As a pre-validated technology preview, the Open RAN reference architecture gives CSPs a trusted, best-of-breed solution to build out the 5G RAN of the future.
The solution includes technology from the following:
With our commitment to Open RAN, Dell Technologies is leading a cross-industry initiative to bring technology from the world's leading RAN vendors to bear on the most critical challenges that CSPs are facing today. Our deep and long-standing relationships with VMware, Intel, and Mavenir allow us to develop and test solutions that embrace open standards, multivendor ecosystems, and the latest market innovations.
Open RAN technology is critical to the success of 5G. It opens the future to more innovation, smoother and more reliable supply chain operation, and competitive pricing. Dell Technologies is committed to Open RAN technology through its partnerships, industry alliances, and growing investment in 5G research, development, and services. To find out more about the technology preview, download the solution brief or the tech preview reference architecture.