Network slicing is a method of creating multiple unique logical and virtual networks on a common multi-domain infrastructure.
A different approach to view is that network slicing overlays multiple virtual networks on a shared network. Each part of the network can have its own logical topology, security rules and performance characteristics-within the limits imposed by the basic physical network.
Network slicing is a key function of 5G.
5G network slicing is a virtual network architecture that belongs to the same family as Software-defined Networking (SDN) and Network Function Virtualization (NFV).
The benefits of network slicing are:
It can help network operators reduce expenditure (OPEX) and capital expenditure (CAPEX).
It greatly improves the operational efficiency and time to market for delivering 5G network services.
A single network can be used to provide various services according to user needs and various use cases.
Network operators can allocate the proper amount of required resources as per network slice.
It overcomes all the shortcomings of the most popular QoS solution "DiffServ".
Fundamentals of 5G Network Slicing Training by Tonex
Fundamentals of 5G Network Slicing Training focuses on key principles, architecture and implementation of 5G network slicing.
Participants discover the way to effectively use network slicing across 5G core, RAN and transport networks. you'll also find out how network slicing is one among key components that provide 5G operation.
Audience:
Software Engineers
Network Design Engineers
Managers
Product management, marketing, planning, operations and employees with little or no experience in 5G or network slicing.
People who have 5G network experience but have never received any formal training on network slicing.
Learning Objectives:
How to implement network slicing in 5G networks
How to lay the foundation for 5G network slicing monetization
How to plan and design the lifecycle management of network slicing
How to implement network slicing and be able to support various services with specific performance or control requirements on a common network platform
Summary of 5G use cases and applications
5G network overview
How to implement operational KPIs on slice/service instantiation, termination, activation, deactivation, usage events, dynamic resource consumption based on slice/service/network functions, and performance and analysis events based on the set of network slice performance indicators
Course Agenda:
Overview of 5G Networks
Digital Transformation and Network Slicing
Network Slicing Deployment
Learn More;
https://www.tonex.com/training-courses/fundamentals-of-5g-network-slicing/
2. Network slicing is a method of creating multiple
unique logical and virtual networks on a
common multi-domain infrastructure.
A different approach to view is that network
slicing overlays multiple virtual networks on a
shared network. Each part of the network can
have its own logical topology, security rules and
performance characteristics-within the limits
imposed by the basic physical network.
3. Different slices are often dedicated to different
purposes, like ensuring a selected application or
service gets priority access to capacity and
delivery or isolating traffic for specific users or
device classes. Slicing networks enables the
network operator to maximise the utilization of
network resources and repair flexibility.
4. Network slicing is a key function of 5G.
5G network slicing is a virtual network
architecture that belongs to the same family as
Software-defined Networking (SDN) and
Network Function Virtualization (NFV).
5. One of the foremost innovative aspects of the 5G
architecture is its reliance on 5G network slicing,
which can let operators provide portions of their
networks for specific customer uses cases —
whether that use case is that the smart home, the
web of Things (IoT) factory, the connected car or
the smart energy grid.
6. The benefits of network slicing are:
• It can help network operators reduce expenditure
(OPEX) and capital expenditure (CAPEX).
• It greatly improves the operational efficiency and
time to market for delivering 5G network services.
• A single network can be used to provide various
services according to user needs and various use
cases.
• Network operators can allocate the proper amount
of required resources as per network slice.
• It overcomes all the shortcomings of the most
popular QoS solution "DiffServ".
7. Traditionally, private networks have been
deployed to meet specific use cases. This is
expensive, and there is usually little flexibility to
adapt to new services and use cases.
Everything about 5G is changing, because 5G
aims to support billions of connected devices,
many diverse use cases, new performance levels,
and multiple new vertical industries through a
common network.
8. Using an equivalent physical network for
multiple purposes results in higher resource
utilization, economies of scale and scope, shorter
time to plug and provides clear synergies and
increased value and benefit to society.
Further, because the available base of users,
devices and applications is larger and uses an
equivalent physical network, the edge for
innovation is lowered and can allow targeting of
specific needs or demands.
9. Fundamentals of 5G Network Slicing Training
by Tonex
Fundamentals of 5G Network Slicing Training
focuses on key principles, architecture and
implementation of 5G network slicing.
Participants discover the way to effectively use
network slicing across 5G core, RAN and
transport networks. you'll also find out how
network slicing is one among key components
that provide 5G operation.
10. Through the use of 5G, SDN and NFV
technologies, we can gain support knowledge of
network slicing and logical virtual network slicing
suitable for 5G to support diversified services
such as mobile broadband, large-scale Internet of
Things and ultra-reliable low-latency services.
11. Audience:
• Software Engineers
• Network Design Engineers
• Managers
• Product management, marketing, planning,
operations and employees with little or no
experience in 5G or network slicing.
• People who have 5G network experience but
have never received any formal training on
network slicing.
12. Learning Objectives:
• How to implement network slicing in 5G
networks
• How to lay the foundation for 5G network
slicing monetization
• How to plan and design the lifecycle
management of network slicing
• How to implement network slicing and be
able to support various services with specific
performance or control requirements on a
common network platform
13. Learning Objectives:
• Summary of 5G use cases and applications
• 5G network overview
• How to implement operational KPIs on
slice/service instantiation, termination,
activation, deactivation, usage events,
dynamic resource consumption based on
slice/service/network functions, and
performance and analysis events based on
the set of network slice performance
indicators
14. Course Agenda:
Overview of 5G Networks
• 5G operational use cases
• NSA and SA architecture
• Overview of 5G network transformation
• Software defined infrastructure (SDI)
• Network functions virtualization (NFV)
• Software-defined networking (SDN)
• Network slicing and 3GPP Activities
• Services related to slicing
• Overview of a network slice
15. Course Agenda:
Overview of 5G Networks
• Network slicing in 5G networks
• The 5G network slicing opportunity
• The use cases identified for 5G and network slicing
• Network slicing use cases requirements
• Extreme (or enhanced) Mobile Broadband (eMBB)
• Massive Machine-Type Communications (mMTC)
• Ultra-reliable Low-Latency Communications
(urLLC)
16. Course Agenda:
Digital Transformation and Network Slicing
• Technical deep dive on slicing
• Network slicing architecture
• Network slicing challenges
• IoT impact
• Network slicing in 5G networks
• RAN, core, and transport network
• Network slicing operational scenarios