Course: Duration: 4 Day Hands-On Lab & Lecture Course Price: $ 2,995.00 Learning Credits: 30 Hitachi HiPass: 4 Description: (ACESM) is a four-day, instructor-led, lecture and lab course that teaches learners how to design, deploy, and optimize intelligent network services using the Cisco ACE Application Control Engine Module for Catalyst 6500 Switches. This course covers all of the key features of the Cisco ACE 2.0 software, including resource virtualization and management, server load balancing (Layer 2 to 4 and Layer 7), Secure Sockets Layer (SSL) termination and offload, and security features like applicationlayer inspection and fixups. To participate in the hands-on labs in this class, you need to bring a laptop computer with the following: We recommend using at least a Pentium 4 or better and 1 GB of RAM or more. We recommend running Windows XP Professional SP3 or greater (Vista & Windows 7/8). Mac & Linux machines are also supported. All PCs require Internet Explorer 7 or greater, Mozilla FireFox, or Google Chrome. Note: When testing connectivity, Mozilla & Chrome may not be able to fully complete the tests as intended. All students should have administrator rights to their PCs. If you do not have administrator rights to your PC, you at least need permissions to download, install, and run Active-X controls in Internet Explorer or Cisco Any Connect Client. If you are participating in a WebEx event, you should have internet access served by at least a 512K link, a full T1 Connection is recommended. All PCs require the latest Java Runtime Environment, which can be downloaded from www.java.com. If you have any questions or issues with meeting the recommended requirements, please contact us at rlt@skyline-ats.com to discuss. ACESM v2.0 Page 1/5 www.skyline-ats.com
Objective: Describe IP application delivery with the Cisco ACE Module Describe the configuration tasks necessary to successfully deploy a Cisco ACE Module Describe the structure and function of the Modular Policy CLI statements used to configure ACE features Describe the methods used to manage the Cisco ACE Module Describe the capabilities the Cisco ACE Module used to load balance IP-based applications Identify the Layer 7 processing options used to provide advanced application networking Create new contexts and resource classes Create class maps and server farms Configure a Cisco ACE context to load-balance traffic flows Configure a Cisco ACE context to monitor real servers Implement fixups and inspection Describe the Cisco ACE features that provide IP application security Implement SSL termination Configure network address translations Describe the high availability features of the Cisco ACE Module Configure a Cisco ACE context to perform a variety functions in an integrated environment Troubleshoot common SLB configuration errors Prerequisites: A basic understanding of the TCP/IP protocol Familiarity with HTTP and SSL protocols Basic knowledge of the N-tier application architecture Familiarity with server load-balancing concepts Who Should Attend: This course is designed for systems engineers and network architects who need to design or deploy server load-balancing solutions using the Cisco ACE Module. ACESM v2.0 Page 2/5 www.skyline-ats.com
Outline: Course Introduction Lesson 1: Introducing Cisco ACE Module IP Protocol Stack Review IP Application Review Introducing the Cisco ACE Module Lesson 2: Deploying Cisco ACE Module Connecting Cisco ACE to the Network Network Topologies Virtualization Resource Management Authorizing Management Users Configuring Interfaces Lesson 3: Configuring Modular Policy CLI Class Maps Policy Maps Applying Policy Maps Lesson 4: Managing the Cisco ACE Module Permitting Management Traffic SNMP Manageability Lesson 5: Understanding Security Features IP Access Control Lists ACL Object Groups SYN Cookies TCP/IP Fragmentation/Reassembly TCP/IP Normalization Network Address Translation and Port Address Translation Lesson 6: Configuring Layer 4 Load Balancing Load-Balancing Concepts Load-Balancing Algorithms Configuring Layer 4 Load Balancing Traffic Rate Limiting Lesson 7: Configuring Health Monitoring Health Monitoring Overview Active Health Probes HTTP Error-Code Monitoring Using TCL Scripting Route Health Injection Backup Servers and Server Farms KAL-AP Integration ACESM v2.0 Page 3/5 www.skyline-ats.com
Lab Outline Lesson 8: Configuring Layer 7 Protocol Processing HTTP Layer 7 Load Balancing Persistent and Pipelined HTTP Extensions HTTP Modifications Session Persistence HTTP Inspection FTP Processing RDP Processing RADIUS Processing RTSP Processing SIP Processing Generic Protocol Parsing Inspected Protocols Lesson 9: Processing Secure Connections Digital Encryption Technologies SSL Service Options Configuring a Public-Key Infrastructure Configuring SSL Proxy Services Lesson 10: Understanding High Availability Redundancy Object Tracking Failover State Replication Displaying Fault Tolerance Information Lesson 11: Integrating Multiple Features Analyzing Network Requirements Designing Cisco ACE Contexts Designing Cisco ACE Features Configuring Multiple Integrated Features Lab Guide Lab Topology Hardware and Software Requirements Lab Equipment Configuration Lab 1: Implementing Virtualization Lab 2: Using Network Address Translation Lab 3: Configuring Server Load Balancing Lab 4: Implementing Health Monitoring Lab 5: Configuring Layer 7 Load Balancing Lab 6: Enabling Sticky Connections Lab 7: Enabling Protocol Inspection ACESM v2.0 Page 4/5 www.skyline-ats.com
Powered by TCPDF (www.tcpdf.org) Lab 8: Configuring SSL Termination Lab 9: Integrating Multiple Features Lab 10: Troubleshooting Case Study 1Common SLB Configuration Errors Lab 11: Troubleshooting Case Study 2Common Layer 7 SLB Configuration Errors ACESM v2.0 Page 5/5 www.skyline-ats.com