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Cisco 350-601 certification exam is an essential requirement for professionals who wish to advance their careers in the data center industry. Implementing Cisco Data Center Core Technologies (350-601 DCCOR) certification is recognized globally and is highly valued by employers. Implementing Cisco Data Center Core Technologies (350-601 DCCOR) certification demonstrates the candidate's skills and knowledge in implementing and managing complex data center solutions, making them highly sought after by organizations looking to hire data center professionals.
Cisco 350-601 exam is intended for individuals who have a strong understanding of networking concepts and experience in data center technologies. 350-601 exam consists of multiple-choice questions and simulations that test the candidate's understanding of data center technologies. 350-601 exam is challenging, and it requires a lot of dedication and hard work to pass.
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| Topic 1 | - Network: This section evaluates the expertise of a Network Engineer in deploying and managing advanced network protocols and architectures. Candidates must demonstrate proficiency in configuring routing protocols (OSPFv2
- v3, MP-BGP), multicast (PIM), and first-hop redundancy (FHRP). The curriculum also covers switching technologies (RSTP+, LACP, vPC), overlay networks like VXLAN EVPN, and Cisco ACI concepts including fabric setup, access policies, and VMM integration. Additionally, engineers are expected to analyse packet flows, understand cloud service models per NIST 800-145, assess software update impacts (disruptive or patch-based), and implement network configuration management. Monitoring and assurance responsibilities include using NetFlow, SPAN, Nexus Dashboard, and streaming telemetry to maintain robust network performance.
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| Topic 2 | - Security: Designed for a Security Engineer, this domain assesses the capability to apply security controls across network, compute, and storage layers. Network security topics include AAA, RBAC, ACI contracts, microsegmentation, first-hop security, keychain authentication, and MACsec. Compute and storage security competencies involve implementing AAA and RBAC policies, securing port-access, and fabric binding. Candidates should integrate these mechanisms to ensure end-to-end protection across Cisco platforms.
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| Topic 3 | - Compute: Targeted at a Compute Engineer, this domain focuses on implementing Cisco Unified Compute System (UCS) solutions, covering both rack and blade chassis. Engineers must be capable of initial deployment, managing infrastructure, network (VLANs, pools, QoS), and SAN storage elements (FC zoning, VSANs, WWN pools, boot policies). Knowledge of UCS-X within Intersight-managed environments is essential, along with understanding firmware
- software update implications for B- and C-Series servers. Compute configuration management skills include backup and restore operations, and monitoring using tools such as SPAN and Cisco Intersight.
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| Topic 4 | - Automation and AI: Aimed at the Network Automation Engineer, this section tests the ability to implement and evaluate automation tools and scripting within network environments. Candidates must be familiar with EEM, schedulers, and scripting via Bash and on-box Python in NX-OS, including interaction through NX-API using JSON
- XML. They must also assess orchestration solutions such as Ansible, Python, POAP, Nexus Dashboard Fabric Controller, PowerShell, Terraform, and Cisco Intersight, determining their suitability for automating and maintaining network infrastructure.
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