Designing and supporting computer networks : CCNA discovery learning guide / Kenneth D. Stewart III, Aubrey Adams.
Material type:![Text](/opac-tmpl/lib/famfamfam/BK.png)
- 1587132125 (pbk.)
- 9781587132124 (pbk.)
- 004.6 STE
Item type | Current library | Call number | Vol info | Copy number | Status | Date due | Barcode | |
---|---|---|---|---|---|---|---|---|
Standard Loan | Moylish Library Main Collection | 004.6 STE (Browse shelf(Opens below)) | Part I : Concepts | 1 | Available | 39002100393595 | ||
Standard Loan | Moylish Library Main Collection | 004.6 STE (Browse shelf(Opens below)) | Part II : Labs | 1 | Available | 39002100393603 | ||
Standard Loan | Thurles Library Main Collection | 004.6 STE (Browse shelf(Opens below)) | 1 | Available | R17989KKRC | |||
Standard Loan | Thurles Library Main Collection | 004.6 STE (Browse shelf(Opens below)) | 1 | Available | R17988JKRC | |||
Standard Loan | Thurles Library Main Collection | 004.6 STE (Browse shelf(Opens below)) | 1 | Available | R17990NKRC | |||
Standard Loan | Thurles Library Main Collection | 004.6 STE (Browse shelf(Opens below)) | 1 | Available | R17991PKRC | |||
Standard Loan | Thurles Library Main Collection | 004.6 STE (Browse shelf(Opens below)) | 1 | Available | R17994XKRC | |||
Standard Loan | Thurles Library Main Collection | 004.6 STE (Browse shelf(Opens below)) | 1 | Available | R17995YKRC |
Enhanced descriptions from Syndetics:
Designing and Supporting Computer Networks
CCNA Discovery Learning Guide #65533; Kenneth D. Stewart III#65533;*#65533;Aubrey Adams #65533; Designing and Supporting Computer Networks, CCNA Discovery Learning Guide is the official supplemental textbook for the Designing and Supporting Computer Networks course in the Cisco#65533; Networking Academy#65533; CCNA#65533; Discovery curriculum version 4. In this course, the last of four in the new curriculum, you progress through a variety of case studies and role-playing exercises, which include gathering requirements, designing basic networks, establishing proof-of-concept, and performing project management tasks. In addition, within the context of a pre-sales support position, you learn lifecycle services, including upgrades, competitive analyses, and system integration. #65533; The Learning Guide , written and edited by instructors, is designed as a portable desk reference to use anytime, anywhere to reinforce the material from the course and organize your time. #65533; The Learning Guide''s features help you focus on important concepts to succeed in this course: Chapter Objectives-Review core concepts by answering the focus questions listed at the beginning of each chapter. Key Terms-Refer to the lists of networking vocabulary introduced and highlighted in context in each chapter. The Glossary defines each key term. Summary of Activities and Labs-Maximize your study time with this complete list of all associated exercises at the end of each chapter. Check Your Understanding-Evaluate your readiness with the end-of-chapter questions that match the style of questions you see in the online course quizzes. The answer key explains each answer. Challenge Questions and Activities-Apply a deeper understanding of the concepts with these challenging end-of-chapter questions and activities. The answer key explains each answer. Hands-on Labs-Master the practical, hands-on skills of the course by performing all the tasks in the course labs included in Part II of the Learning Guide. Portfolio Documents-Develop a professional network design portfolio as you work through real-life case studies. All the course portfolio documents and support materials are provided for you in this Learning Guide and on the CD-ROM. #65533; How To-Look for this icon to study the steps you need to learn to perform certain tasks. #65533; Interactive Activities-Reinforce your understanding of topics with exercises from the online course identified throughout the book with this icon. The files for these activities are on the accompanying CD-ROM. #65533; Packet Tracer Activities-Explore and visualize networking concepts using Packet Tracer exercises interspersed throughout some chapters. The files for these activities are on the accompanying CD-ROM. Packet Tracer v4.1 software developed by Cisco is available separately. #65533; Hands-on Labs-Master the practical, hands-on skills of the course by working through all 71 labs in this course included in Part II of the book. The labs are an integral part of the CCNA Discovery curriculum-review the core text and the lab material to prepare for all your exams. #65533; Companion CD-ROM The CD-ROM includes Interactive Activities Packet Tracer Activity files All Portfolio documents IT Career Information Taking Notes Lifelong Learning #65533; This book is part of the Cisco Networking Academy Series from Cisco Press#65533;. Books in this series support and complement the Cisco Networking Academy curriculum.Includes index.
Part 1 : Concepts -- Part 2 : Labs.
Table of contents provided by Syndetics
- Part I Concepts
- Introduction (p. xlii)
- Chapter 1 Introducing Network Design Concepts (p. 1)
- Objectives (p. 1)
- Key Terms (p. 1)
- Discovering Network Design Basics (p. 2)
- Network Design Overview (p. 2)
- Network Requirements (p. 2)
- Building a Good Network (p. 2)
- Network Requirements (p. 3)
- Fundamental Design Goals (p. 3)
- The Benefits of a Hierarchical Network Design (p. 3)
- Hierarchical Network Design (p. 3)
- Modular Design of Cisco Enterprise Architectures (p. 5)
- Network Design Methodologies (p. 6)
- Step 1 Identifying Network Requirements (p. 7)
- Step 2 Characterizing the Existing Network (p. 7)
- Step 3 Designing the Network Topology (p. 7)
- Investigating Core Layer Design Considerations (p. 9)
- What Happens at the Core Layer? (p. 9)
- Goals of the Core Layer (p. 10)
- Core Layer Technologies (p. 11)
- Redundant Links (p. 11)
- Mesh Topology (p. 11)
- Network Traffic Prioritization (p. 12)
- Preventing Failures (p. 12)
- Reducing Human Error (p. 13)
- Network Convergence (p. 13)
- Convergence Definition and Factors (p. 14)
- Selecting a Routing Protocol for Acceptable Convergence Time (p. 14)
- Design Considerations with Convergence in Mind (p. 14)
- Investigating Distribution Layer Design Considerations (p. 14)
- What Happens at the Distribution Layer? (p. 14)
- Distribution Layer Routing (p. 14)
- Trunks (p. 15)
- Redundant Links (p. 15)
- Distribution Layer Topology (p. 16)
- Limiting the Scope of Network Failure (p. 16)
- Limiting the Size of Failure Domains (p. 17)
- Switch Block Deployment (p. 17)
- Building a Redundant Network at the Distribution Layer (p. 18)
- Traffic Filtering at the Distribution Layer (p. 19)
- Filtering Network Traffic (p. 19)
- Complex ACLs (p. 20)
- Placing ACLs (p. 20)
- Routing Protocols at the Distribution Layer (1.3.5) (p. 21)
- Route Summarization (p. 21)
- Investigating Access Layer Design Considerations (p. 22)
- What Happens at the Access Layer? (p. 22)
- Access Layer Physical Considerations (p. 23)
- Wiring Closets (p. 23)
- The Impact of Converged Networking at the Access Layer (p. 24)
- The Need for Availability at the Access Layer (p. 24)
- Access Layer Management (p. 25)
- Designing for Manageability (p. 25)
- Network Topologies at the Access Layer (p. 26)
- How VLANs Segregate and Control Network Traffic (p. 26)
- VLANs in the Past (p. 26)
- VLANs Now (p. 27)
- Services at the Network Edge (p. 27)
- Providing QoS to Network Applications (p. 27)
- Classification (p. 28)
- Security at the Network Edge (p. 28)
- Security Measures (p. 29)
- Providing Physical Security (p. 29)
- Securing Access Layer Networking Devices (p. 30)
- Recommended Practice on Security (p. 30)
- Investigating Server Farms and Security (p. 30)
- What Is a Server Farm? (p. 30)
- Security, Firewalls, and Demilitarized Zones (p. 32)
- Protecting Server Farms Against Attack (p. 32)
- Demilitarized Zones (p. 33)
- Protecting Against Internal Attacks (p. 33)
- High Availability (p. 33)
- Building In Redundancy (p. 33)
- Virtualization (p. 34)
- Investigating Wireless Network Considerations (p. 34)
- Network Design Considerations Unique to WLANs (p. 34)
- Physical Network Design (p. 35)
- Logical Network Design (p. 36)
- Network Access Considerations Unique to WLANs (p. 37)
- Open Guest Access (p. 37)
- Secured Employee Access (p. 37)
- Best Practice Guidelines for WLAN Access (p. 37)
- Supporting WANs and Remote Workers (p. 39)
- Design Considerations at the Enterprise Edge (p. 39)
- Cost of Bandwidth (p. 39)
- QoS (p. 40)
- Security (p. 40)
- Remote Access (p. 40)
- Integrating Remote Sites into the Network Design (p. 40)
- MPLS (p. 41)
- VPNs (p. 42)
- Redundancy and Backup Links (p. 42)
- Summary (p. 44)
- Activities and Labs (p. 45)
- Check Your Understanding (p. 46)
- Challenge Questions and Activities (p. 48)
Excerpt provided by Syndetics
Author notes provided by Syndetics
Kenneth D. Stewart III teaches computer science and computer networking courses at Flour Bluff High School and Delmar College in Corpus Christi, Texas. Kenneth has worked in the field for more than 17 years and has taught for the past 10 years. Before teaching, Kenneth was a nuclear, biological, and chemical warfare specialist in the 82nd Airborne Division at Ft. Bragg, North Carolina. He holds two degrees in computer science and is earning another in occupational career and technology development from Texas A&M, Corpus Christi.
Aubrey Adams is an electronic and computer system engineering lecturer and Cisco Networking Academy CCNA/IP Telephony instructor at Central College of Technical and Further Education (TAFE) in Perth, Western Australia. Coming from a background in telecommunications design, with qualifications in electronic engineering and management, and graduate diplomas in computing and education, he teaches across a broad range of related vocational education and training areas. In 2007, Aubrey took leave from Central TAFE to work as a member of the Networking Academy CCNA Exploration and Discovery course development teams. Since returning to teaching, he continues to contribute to Academy curriculum maintenance and development.
Jim Lorenz is an instructor, and senior training developer for the Cisco Networking Academy Program. He holds a Bachelor's degree in Computer Information Systems and has over 20 years of experience in networking and IT. Jim has developed course materials, including content, labs and textbooks for the CCNA and CCNP curricula. Most recently he coordinated lab development for the CCNA Security course.