4. MECを理解する①
MEC のユースケースによって
必要な要素(テクノロジー、品質、
ビジネス要件)が異なる
MBB: Mobile Broadband
mMTC: massive Machine
Type Communications
Dense Inf Society
Connected vehicles
VR office/factory/tactileThroughput
Latency
Reliability
Availability
Energy
Efficiency
User/Device
density
Implications of 5G RAN and IoT on OpenStack based edge computing. より引用 [ OpenStack Summit にて AT&T, Ericsson 発表 ]
https://www.openstack.org/videos/sydney-2017/implications-of-5g-ran-and-iot-on-openstack-based-edge-computing
5. Disaggregated CoreDisaggregated RAN
MECを理解する②
AT&T の MEC Architecture
5G Application
Ecosystem
IoT
Connected
Car
MBB
RU DU UPF UPF
Macro Radio
& Small cell
Antennas
5G
Base
Stations
Edge
Cloud
Centralized
Cloud
CCF
Internet
CU-CP
CU-UP
NFV MANO (Management & Orchestration)
CU: Centralized Unit
CP: Control Plane
UP: User Plane
UPF: User Plane Function
CCF: Core Control Function
RU: Radio Unit
DU: Digital Unit
Implications of 5G RAN and IoT on OpenStack based edge computing. より引用
9. Container nodes
MEC+GPUアーキテクチャ
NFV MANO
Edge Controllers
Physical
Provisioning
Application
Provisioning
SDN / SDS
Monitoring /
Alerting
Orchestrator
GPU
Hi speed
networking
General
purpose
Low
energy
Hi speed
storage
GPU Server
GPU Server
Storage
Server
Storage
Server
Object
Storage
Servers
w/t SmartNIC Servers
Edge Cloud のスコープ
ServerServer Server
11. Container nodes
POC#1のスコープ想定
NFV MANO
Edge Controllers
Physical
Provisioning
Application
Provisioning
SDN / SDS
Monitoring /
Alerting
Orchestrator
GPU
Hi speed
networking
General
purpose
Low
energy
Hi speed
storage
GPU Server
GPU Server
Storage
Server
Storage
Server
Object
Storage
Servers
w/t SmartNIC Servers
Edge Cloud のスコープ
ServerServer Server