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The Endpoint Imperative: In a Software World, Hardware Does Matter
Hardware matters. From productivity to security to innovation, make sure your machines can keep up. Intel’s Sarah Wieskus joins The End Point Imperative: A Podcast series from Intel to discuss…
IT Transformation with Watson
Credit: Shutterstock by Kevin Jackson & Dez Blanchfield IBM recently launched an exciting new project in the form of a podcast series produced and hosted Dez Blanchfield, appropriately titled the…
The Endpoint Imperative: A Form Factor Renaissance
Workplace expectations are changing, and along with them, the devices we use to do our jobs. In this episode of “The End Point Imperative”, Intel’s Sarah Wieskus tells us about…
Cloud Storage 2.0 Set To Dominate Market
The enterprise data storage marketplace is poised to become a battlefield. No longer the quiet backwater of cloud computing services, the focus of this global transition is now going from…
Top “Cloud Musings” Posts For 2017
( This content is being syndicated through multiple channels. The opinions expressed are solely those of the author and do not represent the views of GovCloud Network, GovCloud…
The Endpoint Imperative: ID’ing and Overcoming the Stumbling Blocks to Digital Transformation
Digital Transformation is the No 1 priority for organizations large and small. It’s imperative that IT remove any obstacles to digital transformation success – including outdated PCs and mobile devices.…
Industry Verticals Tackle Unstructured Data
Organizations around the world are struggling to cope with the current data explosion. A vital characteristic of this data is that it is unstructured and represents things like email,…
The Endpoint Imperative: The Perimeter is Dead; Long Live the Perimeter!
Cloud, mobility and the Internet of Things have obliterated the traditional perimeter that protected organizations. The result: Higher productivity, but bigger challenges for security, data protection, and mobile device management.…
The Data Storage Explosion
Cloud computing innovation will power enterprise transformation in 2018. Cloud growth is also driving a rapid rise in the storage market, exacerbating the enterprise challenge around storage cost and complexity.…
Digital Transformation Drives Mainframe’s Future
Digital Transformation is amplifying mainframe as mission critical to business growth more than ever before. With 70% of the world’s corporate data and over half of the world’s enterprise…
Hybrid IT enables a composable infrastructure which describes a framework whose physical compute, storage, and network fabric resources are treated as services.
Resources are logically pooled so that administrators need to physically configure hardware to support a specific software application, which describes the function of a composable architecture.
This type of transformative infrastructure is foundational to contemporary agile business because a hybrid IT environment, private clouds, public clouds, community clouds, traditional data centers, and services from service providers must be integrated and interconnected.
Composable infrastructures can build new revenue-generating products and services faster while simultaneously addressing the key inhibitors to change, which include the following:
- General concerns regarding lack of adequate hybrid infrastructure security
- The false impression that cloud cannot support the operational/performance requirements of critical applications (e.g., SAP and Oracle)
- Management challenge presented by multi-cloud environments contracts that will include varying levels of governance and service-level agreements (SLAs)
- The need to match employee management skills across various cloud platforms
Composable infrastructure architectures have two major functions. They must be able to disaggregate
and aggregate resources into pools and compose consumable resources through a unified API.
Fifth-generation (5G) wireless networks will significantly enhance the current mobile network environment. These new networks will use multi-access edge computing (MEC) to extend composable enterprise infrastructures to the network edge, a capability broadly referred to as edge computing.
To support this future IT-operating environment, enterprise content and application developers need to collaborate with telecommunications network operators to gain access to edge services.
Using this architecture, “Internet of Things†(IoT) applications can respond in real time to local events and use cloud capabilities for all other data processing functions.
Edge computing application design development model has three locations:
- Client
- Near server
- Far server
An end-to-end IT service designed to operate in an IoT environment follows this model also but with different reference names or components:
- Terminal device component
- Edge component(s)
- Remote component(s)
The IoT architecture emphasizes the distribution of components. In this environment, network services (i.e., routers, firewalls, load balancers, XML processing, and WAN optimization devices) are replaced with software running on virtual machines.
To ensure secure operations, key cybersecurity tasks include the following:
- Securing the controller as the centralized decision point for access to the Software Defined Network (SDN)
- Protecting the controller against malware or attack
- Establish trust by protecting the communications throughout the network by ensuring the SDN controller, related applications, and managed devices are all trusted entities
- Creation of a robust policy framework that establishes a system of checks and balances across all SDN controllers
- Conducting forensics and remediation when an incident happens in order to determine the cause and prevent reoccurrence
Network Function Virtualization (NFV) establishes a virtualized networking environment dedicated to providing different network services. If NFV is used, the SDN can also act as a hypervisor for NFV virtual machines.
Approaches for implementing cybersecurity protections include the following:
- Embed security within the virtualized network devices
- Embed security into the SDN servers, storage, and other computing devices
The Zero Trust security model is centered on the belief that organizations should not trust anything inside or outside their perimeters. This model requires verification of anything and everything trying to connect to its systems before access is granted. The Zero Trust approach uses existing technologies and governance processes in securing the enterprise IT environment.
When designing and deploying transformational solutions across enterprise, cloud, 5G networks, MEC environment, and the Zero Trust paradigm must be extended to include all associated SDNs.
Read more about digital transformation and transformation infrastructure: grab a copy of my new book, Click to Transform, out today!
Cloud Computing
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Cybersecurity
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