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Cisco

교육개요
교육 커리큘럼과 강사는 사정에 의해 변경될 수 있습니다.
교육명,를 포함한 교육과정 표
교육명 중급 [DCCOR] Implementing and Operating Cisco Data Center Core Technologies v1.0 1차
교육기간 2020-01-01 ~ 2020-12-31
교육시간 09:30~17:30(1일 7시간 / 5일, 총 35시간) + 셀프스터디 3일(21시간)
교육장 영우글로벌러닝  지도보기
강사 Cisco 공인강사
정원 15명
교육비 2,800,000원[VAT별도] / Learning Credit 가능 / 온사이트 진행


교육소개
※ 교육문의 및 교육신청: 02-6004-7584 /
hskang@youngwoo.co.kr
※ 과정개설 최소인원: 6명
※ 일정: 협의
※ 총 일정: 오프라인 과정 5일 + 수강생 셀프스터디 3일(별도
표시된 셀프스터디 컨텐츠 / Lab 제외)

[Course De ion]
The Implementing and Operating Cisco Data
Center Core Technologies (DCCOR) v1.0 course
helps you prepare for the Cisco® CCNP® Data
Center and CCIE® Data Center certifications and
for advanced-level data center roles. In this
course, you will master the skills and
technologies you need to implement data center
compute, LAN and SAN infrastructure. You will
also learn the essentials of automation and
security in data centers. You will get hands-on
experience with deploying, securing, operating,
and maintaining Cisco data center
infrastructure including: Cisco MDS Switches
and Cisco Nexus Switches; Cisco Unified
Computing System™ (Cisco UCS®) B-Series Blade
Servers, and Cisco UCS C-Series Rack Servers.

This course, including the self-paced material,
helps prepare you to take the exam,
Implementing Cisco Data Center Core
Technologies (350-601 DCCOR), which leads to
the new CCNP Data Center, CCIE Data Center, and
the Cisco Certified Specialist - Data Center
Core certifications. The exam will be available
beginning February 24, 2020.

[Course Benefits]
This course will help you:
▪ Gain experience implementing, securing and
automating network, compute, and storage
infrastructure
▪ Gain knowledge and skills through Cisco’s
unique combination of lessons and hands-on
practice using enterprise-grade Cisco learning
technologies, data center equipment, and
software
▪ Prepare for the Implementing and Operating
Cisco Data Center Core Technologies (350-601
DCCOR) exam, that will be available beginning
February 24, 2020
▪ Qualify for professional and expert-level job
roles in the high-demand area of enterprise-
class data center environments
교육목표
[Course Objectives]
After taking this course, you should be able
to:
▪ Implement routing and switching protocols in
Data Center environment
▪ Implement overlay networks in data center
▪ Introduce high-level Cisco Application
Centric Infrastructure (Cisco ACI™) concepts
and Cisco Virtual Machine manager (VMM) domain
integration
▪ Describe Cisco Cloud Service and deployment
models
▪ Implement Fibre Channel fabric
▪ Implement Fibre Channel over Ethernet (FCoE)
unified fabric
▪ Implement security features in data center
▪ Implement software management and
infrastructure monitoring
▪ Implement Cisco UCS Fabric Interconnect and
Server abstraction
▪ Implement SAN connectivity for Cisco Unified
Computing System™ (Cisco UCS®)
▪ Describe Cisco HyperFlex™ infrastructure
concepts and benefits
▪ Implement Cisco automation and scripting
tools in data center
▪ Evaluate automation and orchestration
technologies

[What to expect in the exam]
This course will help you prepare to take the
Implementing and Operating Cisco Data Center
Core Technologies (350-601 DCCOR) exam. This
exam tests your knowledge of implementing core
data center technologies including network,
compute, storage network, automation, and
security. The exam will be available beginning
February 24, 2020.

After you pass 350-601 DCCOR:
▪ You earn the Cisco Certified Specialist -
Data Center Core certification
▪ You satisfy the core requirement for CCNP
Data Center and CCIE Data Center. To complete
your CCNP Data Center certification, pass one
of the data center concentration exams. To
complete your CCIE Data Center certification,
pass the CCIE Data Center v3.0 Lab Exam
교육대상
[Course Prerequisites]
To fully benefit from this course, you should
have the following knowledge and skills:
▪ Familiarity with Ethernet and TCP/IP
networking
▪ Familiarity with SANs
▪ Familiarity with Fibre Channel protocol
▪ Identify products in the Cisco Data Center
Nexus and Cisco MDS families
▪ Understanding of Cisco Enterprise Data Center
architecture
▪ Understanding of server system design and
architecture
▪ Familiarity with hypervisor technologies
(such as VMware)

These Cisco courses are recommended to help you
meet these prerequisites:
▪ Implementing and Administering Cisco
Solutions (CCNA) v1.0
▪ Understanding Cisco Data Center Foundations
(DCFNDU) v1.0
▪ Introducing Cisco Data Center Networking
(DCICN) v6.2
▪ Introducing Cisco Data Center Technologies
(DCICT) v6.2
▪ Interconnecting Cisco Networking Devices:
Accelerated (CCNAX) or Interconnecting Cisco
Networking Devices Part 1 (ICND1) and
Interconnecting Cisco Networking Devices Part 2
(ICND2)

[Job Roles]
▪ Network designers
▪ Network administrators
▪ Network engineers
▪ Systems engineers
▪ Data center engineers
▪ Consulting systems engineers
▪ Technical solutions architects
▪ Field engineers
▪ Cisco integrators and partners
▪ Server administrator
▪ Network manager
교육내용

 

Course Outline

  • Implementing Data Center Switching Protocols*
    • ▪ Spanning Tree Protocol
    • ▪ Port Channels Overview
    • ▪ Virtual Port Channels Overview
  • Implementing First-Hop Redundancy Protocols*
    • ▪ Hot Standby Router Protocol (HSRP) Overview
    • ▪ Virtual Router Redundancy Protocol (VRRP) Overview
    • ▪ First Hop Redundancy Protocol (FHRP) for IPv6
  • Implementing Routing in Data Center*
    • ▪ Open Shortest Path First (OSPF) v2 and Open Settlement Protocol (OSP) v3
    • ▪ Border Gateway Protocol
  • Implementing Multicast in Data Center*
    • ▪ IP Multicast in Data Center Networks
    • ▪ Internet Group Management Protocol (IGMP) and Multicast Listener Discovery (MLD)
    • ▪ Multicast Distribution Trees and Routing Protocols
    • ▪ IP Multicast on Cisco Nexus Switches
  • Implementing Data Center Overlay Protocols
    • ▪ Cisco Overlay Transport Virtualization
    • ▪ Virtual Extensible LAN
  • Implementing Network Infrastructure Security*
    • ▪ User Accounts and Role Based Access Control (RBAC)
    • ▪ Authentication, Authorization, and Accounting (AAA) and SSH on Cisco NX-OS
    • ▪ Keychain Authentication
    • ▪ First Hop Security
    • ▪ Media Access Control Security
    • ▪ Control Plane Policing
  • Describing Cisco Application-Centric Infrastructure
    • ▪ Cisco ACI Overview, Initialization, and Discovery
    • ▪ Cisco ACI Management
    • ▪ Cisco ACI Fabric Access Policies
  • Describing Cisco ACI Building Blocks and VMM Domain Integration
    • ▪ Tenant-Based Components
    • ▪ Cisco ACI Endpoints and Endpoint Groups (EPG)
    • ▪ Controlling Traffic Flow with Contracts
    • ▪ Virtual Switches and Cisco ACI VMM Domains
    • ▪ VMM Domain EPG Association
    • ▪ Cisco ACI Integration with Hypervisor Solutions
  • Describing Packet Flow in Data Center Network*
    • ▪ Data Center Traffic Flows
    • ▪ Packet Flow in Cisco Nexus Switches
    • ▪ Packet Flow in Cisco ACI Fabric
  • Describing Cisco Cloud Service and Deployment Models
    • ▪ Cloud Architectures
    • ▪ Cloud Deployment Models
  • Describing Data Center Network Infrastructure Management, Maintenance, and Operations*
    • ▪ Time Synchronization
    • ▪ Network Configuration Management
    • ▪ Software Updates
    • ▪ Network Infrastructure Monitoring
  • Explaining Cisco Network Assurance Concepts*
    • ▪ Need for Network Assurance
    • ▪ Cisco Streaming Telemetry Overview
  • Implementing Fibre Channel Fabric
    • ▪ Fibre Channel Basics
    • ▪ Virtual Storage Area Network (VSAN) Overview
    • ▪ SAN Port Channels Overview
    • ▪ Fibre Channel Domain Configuration Process
  • Implementing Storage Infrastructure Services
    • ▪ Distributed Device Aliases
    • ▪ Zoning
    • ▪ N-Port Identifier Virtualization (NPIV) and N-Port Virtualization (NPV)
    • ▪ Fibre Channel over IP
    • ▪ Network Access Server (NAS) Concepts
    • ▪ Storage Area Network (SAN) Design Options
  • Implementing FCoE Unified Fabric
    • ▪ Fibre Channel over Ethernet
    • ▪ Describing FCoE
    • ▪ FCoE Topology Options
    • ▪ FCoE Implementation
  • Implementing Storage Infrastructure Security*
    • ▪ User Accounts and RBAC
    • ▪ Authentication, Authorization, and Accounting
    • ▪ Fibre Channel Port Security and Fabric Binding
  • Describing Data Center Storage Infrastructure Maintenance and Operations*
    • ▪ Time Synchronization
    • ▪ Software Installation and Upgrade
    • ▪ Storage Infrastructure Monitoring
  • Describing Cisco UCS Server Form Factors*
    • ▪ Cisco UCS B-Series Blade Servers
    • ▪ Cisco UCS C-Series Rack Servers
  • Implementing Cisco Unified Computing Network Connectivity
    • ▪ Cisco UCS Fabric Interconnect
    • ▪ Cisco UCS B-Series Connectivity
    • ▪ Cisco UCS C-Series Integration
  • Implementing Cisco Unified Computing Server Abstraction
    • ▪ Identity Abstraction
    • ▪ Service Profile Templates
  • Implementing Cisco Unified Computing SAN Connectivity
    • ▪ iSCSI Overview
    • ▪ Fibre Channel Overview
    • ▪ Implement FCoE
  • Implementing Unified Computing Security
    • ▪ User Accounts and RBAC
    • ▪ Options for Authentication
    • ▪ Key Management
  • Introducing Cisco HyperFlex Systems*
    • ▪ Hyperconverged and Integrated Systems Overview
    • ▪ Cisco HyperFlex Solution
    • ▪ Cisco HyperFlex Scalability and Robustness
  • Describing Data Center Unified Computing Management, Maintenance, and Operations*
    • ▪ Compute Configuration Management
    • ▪ Software Updates
    • ▪ Infrastructure Monitoring
    • ▪ Cisco Intersight
  • Implementing Cisco Data Center Automation and Scripting Tools*
    • ▪ Cisco NX-OS Programmability
    • ▪ Scheduler Overview
    • ▪ Cisco Embedded Event Manager Overview
    • ▪ Bash Shell and Guest Shell for Cisco NX-OS
    • ▪ Cisco Nexus API
  • Describing Cisco Integration with Automation and Orchestration Software Platforms
    • ▪ Cisco and Ansible Integration Overview
    • ▪ Cisco and Puppet Integration Overview
    • ▪ Python in Cisco NX-OS and Cisco UCS
  • Describing Cisco Data Center Automation and Orchestration Technologies*
    • ▪ Power On Auto Provisioning
    • ▪ Cisco Data Center Network Manager Overview
    • ▪ Cisco UCS Director Fundamentals
    • ▪ Cisco UCS PowerTool

* This section is self-study material that can be done at your own pace after the instructor-led portion of the course.

 

 

Lab Outline

  • ▪ Configure Overlay Transport Visualization (OTV)
  • ▪ Configure Virtual Extensible LAN (VXLAN)
  • ▪ Explore the Cisco ACI Fabric
  • ▪ Implement Cisco ACI Access Policies and Out-of-Band Management
  • ▪ Implement Cisco ACI Tenant Policies
  • ▪ Integrate Cisco ACI with VMware
  • ▪ Configure Fibre Channel
  • ▪ Configure Device Aliases
  • ▪ Configure Zoning
  • ▪ Configure NPV
  • ▪ Configure FCoE
  • ▪ Provision Cisco UCS Fabric Interconnect Cluster
  • ▪ Configure Server and Uplink Ports
  • ▪ Configure VLANs
  • ▪ Configure a Cisco UCS Server Profile Using Hardware Identities
  • ▪ Configure Basic Identity Pools
  • ▪ Configure a Cisco UCS Service Profile Using Pools
  • ▪ Configure an Internet Small Computer Systems Interface (iSCSI) Service Profile
  • ▪ Configure Cisco UCS Manager to Authenticate Users with Microsoft Active Directory
  • ▪ Program a Cisco Nexus Switch with Python

 

 

 

학원의 설립ㆍ운영 및 과외교습에 관한 법률 시행령에 따라 다음과 같이 수강료를 환불해드립니다.

  1. 반환기한 : 반환사유가 발생한 경우 반환기준에 따라 반환사유 발생일로부터 5일 이내에 교습비등을 환불해 드리겠습니다.
  2. 반환기준
    • 1) 교습을 할 수 없거나 교습장소를 제공할 수 없게 된 날을 기준으로 이미 납부한 교습비등을 일할 계산한 금액을 환불해 드리겠습니다.
    • 2) 교습기간이 1개월 이내인 경우, 다음과 같이 환불해 드리겠습니다.
      - 교습시작 전 : 이미 납부한 교습비등의 전액
      - 총 교습시간 1/3 경과 전 : 이미 납부한 교습비등의 2/3에 해당하는 금액
      - 총 교습시간 1/2 경과 전 : 이미 납부한 교습비등의 1/2에 해당하는 금액
      - 총 교습시간 1/2 경과 후 : 반환하지 않음
    • 3) 교습기간이 1개월을 초과하는 경우, 다음과 같이 환불해 드리겠습니다.
      - 교습시작 전 : 이미 납부한 교습비등의 전액
      - 교습시작 후 : 반환사유가 발생한 해당월의 반환 대상 교습비등(교습기간 1개월 이내 기준 산출금액)과 나머지 월의 교습비등 전액을 합산한 금액