CCIE Security

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The Cisco Certified Internetwork Expert Security (CCIE Security) program recognizes security experts who have the knowledge and skills to architect, engineer, implement, troubleshoot, and support the full suite of Cisco security technologies and solutions using the latest industry best practices to secure systems and environments against modern security risks, threats, vulnerabilities, and requirements.

CCIE certified and experienced Cisco instructors will facilitate the classes. The instructor will provide detailed explanation and facilitate group discussion. Students will also receive individual attention from the instructor if needed. Throughout the course students will have access to the most up to date rack of equipment matching the CCIE Securirty Lab blueprint. The course is frequently reviewed to ensure that it is up to date and meets the latest topics tested on the CCIE Security v5.0 Lab exam blueprint.

CCIE Datacenter Lab is divided in 3 different section:
1 Configuration
2 Diagnostics
3 Troubleshooting

Key Features of CCIE Training:
Guaranteed Training on Real Time Devices.
CCIE Concepts explained in practical and theoretical context.
24*7 Lab Access.
60+ hours of classroom-style training using an interactive whiteboard and projector session.
Course Revision – By enrolling once you can avail classes for same training up to 2 times.
Smart classrooms fully equipped with projectors, Wi-Fi connectivity, Digital Pads.
Support and Guidance if you are applying for Cisco Global Certification.
Late night and early morning batch facility
24*7 Trainers Availability
Training delivered by Experienced and Certified Trainers.
Mr. Naiman Khan : CCIE Security – #54008 Mumbai
Mr. Maqsood : CCIE Collaboration – #XXXXX Delhi
Mr. Farhan : CCIE Collaboration, Data Center – #XXXXX Banglore
Mr. Vikas : CCIE Collaboration – #XXXXX Pune

Devices to be used during the Training Program:

Virtual Machines:
—————–
Security Appliances
Cisco Identity Services Engine (ISE): 2.1.0
Cisco Secure Access Control System (ACS): 5.8.0.32
Cisco Web Security Appliance (WSA): 9.2.0
Cisco Email Security Appliance (ESA): 9.7.1
Cisco Wireless Controller (WLC): 8.0.133
Cisco Firepower Management Center Virtual Appliance: 6.0.1 and/or 6.1
Cisco Firepower NGIPSv: 6.0.1
Cisco Firepower Threat Defense: 6.0.1

Core Devices
IOSv L2: 15.2
IOSv L3: 15.5(2)T
Cisco CSR 1000V Series Cloud Services Router: 3.16.02.S
Cisco Adaptive Security Virtual Appliance (ASAv): 9.6.1

Others
Test PC: Microsoft Windows 7
Active Directory: Microsoft Windows Server 2008
Cisco Application Policy Infrastructure Controller Enterprise Module : 1.2
Cisco Unified Communications Manager: 8.6.(1)
FireAMP Private Cloud
AnyConnect 4.2

Physical Devices
——————
Cisco Catalyst Switch
WS-C3850-24U 03.07.04E

Cisco Adaptive Security Appliance
5512-X: 9.6.1

Cisco 2504 Wireless Controller
2504: 8.0.133.0

Cisco Aironet
1602E: 15.3.3-JC

Cisco Unified IP Phone
7965: 9.2(3)

Course Prerequisites

Before starting this course one should have knowledge of CCNA, CCNP and CCIE Security (written), and dedication to learn Labs for the same.

Topics:

1.0 Perimeter Security and Intrusion Prevention

1.1 Describe, implement, and troubleshoot HA features on Cisco ASA and Cisco FirePOWER Threat Defense (FTD)

1.2 Describe, implement, and troubleshoot clustering on Cisco ASA and Cisco FTD

1.3 Describe, implement, troubleshoot, and secure routing protocols on Cisco ASA and Cisco FTD

1.4 Describe, implement, and troubleshoot different deployment modes such as routed, transparent, single, and multicontext on Cisco ASA and Cisco FTD

1.5 Describe, implement, and troubleshoot firewall features such as NAT (v4,v6), PAT, application inspection, traffic zones, policy-based routing,  traffic redirection to service modules, and identity firewall on Cisco ASA and Cisco FTD

1.6 Describe, implement, and troubleshoot IOS security features such as Zone-Based Firewall (ZBF), application layer inspection, NAT (v4,v6), PAT and  TCP intercept on Cisco IOS/IOS-XE

1.7 Describe, implement, optimize, and troubleshoot policies and rules for traffic control on Cisco ASA, Cisco FirePOWER and Cisco FTD

1.8 Describe, implement, and troubleshoot Cisco Firepower Management Center (FMC) features such as alerting, logging, and reporting

1.9 Describe, implement, and troubleshoot correlation and remediation rules on Cisco FMC

1.10 Describe, implement, and troubleshoot Cisco FirePOWER and Cisco FTD deployment such as in-line, passive, and TAP modes

1.11 Describe, implement, and troubleshoot Next Generation Firewall (NGFW) features such as SSL inspection, user identity, geolocation, and AVC  (Firepower appliance)

1.12 Describe, detect, and mitigate common types of attacks such as DoS/DDoS, evasion techniques, spoofing, man-in-the-middle, and botnet

2.0 Advanced Threat Protection and Content Security

2.1 Compare and contrast different AMP solutions including public and private cloud deployment models

2.2 Describe, implement, and troubleshoot AMP for networks, AMP for endpoints, and AMP for content security (CWS, ESA, and WSA)

2.3 Detect, analyze, and mitigate malware incidents

2.4 Describe the benefit of threat intelligence provided by AMP Threat GRID

2.5 Perform packet capture and analysis using Wireshark, tcpdump, SPAN, and RSPAN

2.6 Describe, implement, and troubleshoot web filtering, user identification, and Application Visibility and Control (AVC)

2.7 Describe, implement, and troubleshoot mail policies, DLP, email quarantines, and SenderBase on ESA

2.8 Describe, implement, and troubleshoot SMTP authentication such as SPF and DKIM on ESA

2.9 Describe, implement, and troubleshoot SMTP encryption on ESA

2.10 Compare and contrast different LDAP query types on ESA

2.11 Describe, implement, and troubleshoot WCCP redirection

2.12 Compare and contrast different proxy methods such as SOCKS, Auto proxy/WPAD, and transparent

2.13 Describe, implement, and troubleshoot HTTPS decryption and DLP

2.14 Describe, implement, and troubleshoot CWS connectors on Cisco IOS routers, Cisco ASA, Cisco AnyConnect, and WSA

2.15 Describe the security benefits of leveraging the OpenDNS solution.

2.16 Describe, implement, and troubleshoot SMA for centralized content security management

2.17 Describe the security benefits of leveraging Lancope

3.0 Secure Connectivity and Segmentation

3.1 Compare and contrast cryptographic and hash algorithms such as AES, DES, 3DES, ECC, SHA, and MD5

3.2 Compare and contrast security protocols such as ISAKMP/IKEv1, IKEv2, SSL, TLS/DTLS, ESP, AH, SAP, and MKA

3.3 Describe, implementc and troubleshoot remote access VPN using technologies such as FLEXVPN, SSL-VPN between Cisco firewalls, routers, and end hosts

3.4 Describe, implement, and troubleshoot the Cisco IOS CA for VPN authentication

3.5 Describe, implement, and troubleshoot clientless SSL VPN technologies with DAP and smart tunnels on Cisco ASA and Cisco FTD

3.6 Describe, implement, and troubleshoot site-to-site VPNs such as GETVPN, DMVPN and IPsec

3.7 Describe, implement, and troubleshoot uplink and downlink MACsec (802.1AE)

3.8 Describe, implement, and troubleshoot VPN high availability using Cisco ASA VPN clustering and dual-hub DMVPN deployments

3.9 Describe the functions and security implications of cryptographic protocols such as AES, DES, 3DES, ECC, SHA, MD5, ISAKMP/IKEv1, IKEv2, SSL,  TLS/DTLS, ESP, AH, SAP, MKA, RSA, SCEP/EST, GDOI, X.509, WPA, WPA2, WEP, and TKIP

3.10 Describe the security benefits of network segmentation and isolation

3.11 Describe, implement, and troubleshoot VRF-Lite and VRF-Aware VPN

3.12 Describe, implement, and troubleshoot microsegmentation with TrustSec using SGT and SXP

3.13 Describe, implement, and troubleshoot infrastructure segmentation methods such as VLAN, PVLAN, and GRE

3.14 Describe the functionality of Cisco VSG used to secure virtual environments

3.15 Describe the security benefits of data center segmentation using ACI, EVPN, VXLAN, and NVGRE

4.0 Identity Management, Information Exchange, and Access Control

4.1 Describe, implement, and troubleshoot various personas of ISE in a multinode deployment

4.2 Describe, implement, and troubleshoot network access device (NAD), ISE, and ACS configuration for AAA

4.3 Describe, implement, and troubleshoot AAA for administrative access to Cisco network devices using ISE and ACS

4.4 Describe, implement, verify, and troubleshoot AAA for network access with 802.1X and MAB using ISE.

4.5 Describe, implement, verify, and troubleshoot cut-through proxy/auth-proxy using ISE as the AAA server

4.6 Describe, implement, verify, and troubleshoot guest life cycle management using ISE and Cisco network infrastructure

4.7 Describe, implement, verify, and troubleshoot BYOD on-boarding and network access flows with an internal or external CA

4.8 Describe, implement, verify, and troubleshoot ISE and ACS integration with external identity sources such as LDAP, AD, and external RADIUS

4.9 Describe ISE and ACS integration with external identity sources such as RADIUS Token, RSA SecurID, and SAML

4.10 Describe, implement, verify, and troubleshoot provisioning of AnyConnect with ISE and ASA

4.11 Describe, implement, verify, and troubleshoot posture assessment with ISE

4.12 Describe, implement, verify, and troubleshoot endpoint profiling using ISE and Cisco network infrastructure including device sensor

4.13 Describe, implement, verify, and troubleshoot integration of MDM with ISE

4.14 Describe, implement, verify, and troubleshoot certificate based authentication using ISE

4.15 Describe, implement, verify, and troubleshoot authentication methods such as EAP Chaining and Machine Access Restriction (MAR)

4.16 Describe the functions and security implications of AAA protocols such as RADIUS, TACACS+, LDAP/LDAPS, EAP (EAP-PEAP, EAP-TLS, EAP-TTLS, EAP-FAST,  EAP-TEAP, EAP- MD5, EAP-GTC), PAP, CHAP, and MS-CHAPv2

4.17 Describe, implement, and troubleshoot identity mapping on ASA, ISE, WSA and FirePOWER

4.18 Describe, implement, and troubleshoot pxGrid between security devices such as WSA, ISE, and Cisco FMC

5.0 Infrastructure Security, Virtualization, and Automation

5.1 Identify common attacks such as Smurf, VLAN hopping, and SYNful knock, and their mitigation techniques

5.2 Describe, implement, and troubleshoot device hardening techniques and control plane protection methods, such as CoPP and IP Source routing.

5.3 Describe, implement, and troubleshoot management plane protection techniques such as CPU and memory thresholding and securing device access

5.4 Describe, implement, and troubleshoot data plane protection techniques such as iACLs, uRPF, QoS, and RTBH

5.5 Describe, implement, and troubleshoot IPv4/v6 routing protocols security

5.6 Describe, implement, and troubleshoot Layer 2 security techniques such as DAI, IPDT, STP security, port security, DHCP snooping, and VACL

5.7 Describe, implement, and troubleshoot wireless security technologies such as WPA, WPA2, TKIP, and AES

5.8 Describe wireless security concepts such as FLEX Connect, wIPS, ANCHOR, Rogue AP, and Management Frame Protection (MFP)

5.9 Describe, implement, and troubleshoot monitoring protocols such as NETFLOW/IPFIX, SNMP, SYSLOG, RMON, NSEL, and eSTREAMER

5.10 Describe the functions and security implications of application protocols such as SSH, TELNET, TFTP, HTTP/HTTPS, SCP, SFTP/FTP, PGP, DNS/DNSSEC,  NTP, and DHCP

5.11 Describe the functions and security implications of network protocols such as VTP, 802.1Q, TCP/UDP, CDP, LACP/PAgP, BGP, EIGRP, OSPF/OSPFv3,  RIP/RIPng, IGMP/CGMP, PIM, IPv6, and WCCP

5.12 Describe the benefits of virtualizing security functions in the data center using ASAv, WSAv, ESAv, and NGIPSv

5.13 Describe the security principles of ACI such as object models, endpoint groups, policy enforcement, application network profiles, and contracts

5.14 Describe the northbound and southbound APIs of SDN controllers such as APIC-EM

5.15 Identify and implement security features to comply with organizational security policies, procedures, and standards such as BCP 38, ISO 27001, RFC  2827, and PCI-DSS

5.16 Describe and identify key threats to different places in the network (campus, data center, core, edge) as described in Cisco SAFE

5.17 Validate network security design for adherence to Cisco SAFE recommended practices

5.18 Interpret basic scripts that can retrieve and send data using RESTful API calls in scripting languages such as Python

5.19 Describe Cisco Digital Network Architecture (DNA) principles and components.

6.0 Evolving Technologies v1.1

6.1 Cloud

  • 6.1.a Compare and contrast public, private, hybrid, and multicloud design considerations
    • 6.1.a [i] Infrastructure, platform, and software as a service (XaaS)
    • 6.1.a [ii] Performance, scalability, and high availability
    • 6.1.a [iii] Security implications, compliance, and policy
    • 6.1.a [iv] Workload migration
  • 6.1.b Describe cloud infrastructure and operations
    • 6.1.b [i] Compute virtualization (containers and virtual machines)
    • 6.1.b [ii] Connectivity (virtual switches, SD-WAN and SD-Access)
    • 6.1.b [iii] Virtualization functions (NFVi, VNF, and L4/L6)
    • 6.1.b [iv] Automation and orchestration tools (CloudCenter, DNA-center, and Kubernetes)

6.2 Network programmability (SDN)

  • 6.2.a Describe architectural and operational considerations for a programmable network
    • 6.2.a [i] Data models and structures (YANG, JSON and XML)
    • 6.2.a [i] Device programmability (gRPC, NETCONF and RESTCONF)
    • 6.2.a [ii] Controller based network design (policy driven configuration and northbound/ southbound APIs)
    • 6.2.a [iii] Configuration management tools (agent and agentless) and version control systems (Git and SVN)

6.3 Internet of things (IoT)

  • 6.3.a Describe architectural framework and deployment considerations for IoT
    • 6.3.a [i] IoT technology stack (IoT Network Hierarchy, data acquisition and flow)
    • 6.3.a [ii] IoT standards and protocols (characteristics within IT and OT environment)
    • 6.3.a [iii] IoT security (network segmentation, device profiling, and secure remote)

Exam Details

Exam Name: Exam Code : Duration: Registration:
CCIE Security Written Exam 400-251 120 minutes (90-110 questions) Pearson VUE

Lab Exam Details

The lab exam is an eight-hour, hands-on exam which requires you to configure and troubleshoot a series of complex networks to given specifications. Knowledge of troubleshooting is an important skill and candidates are expected to diagnose and solve issues as part of the CCIE Collaboration lab exam.

Lab Exam can be booked once CCIE Written exam is cleared

Job Oppurnities

Network Engineers
Networking Administrators
Networking Specialists
Network Support Specialists
Network Consultants
System Integrators
System Engineers

Schedule

Upcoming Batches
Weekday Batch : Weekend Batch:
On Request On Request

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