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Dell VEP4600 16 Core Networking Solution Technology Guide PDF
Summary of Content for Dell VEP4600 16 Core Networking Solution Technology Guide PDF
Dell EMC VEP4600 Technology Guide
Abstract
This document describes the Dell EMC VEP4600 networking switch. It includes features, specifications, and regulatory agency compliance.
Dell Solutions
July 2020 Rev. A06
Notes, cautions, and warnings
NOTE: A NOTE indicates important information that helps you make better use of your product.
CAUTION: A CAUTION indicates either potential damage to hardware or loss of data and tells you how to avoid the
problem.
WARNING: A WARNING indicates a potential for property damage, personal injury, or death.
2018 - 2019 Dell Inc. or its subsidiaries. All rights reserved. Dell, EMC, and other trademarks are trademarks of Dell Inc. or its subsidiaries. Other trademarks may be trademarks of their respective owners.
Chapter 1: Overview........................................................................................................................4
Chapter 2: Features........................................................................................................................ 5 Specifications......................................................................................................................................................................... 5 Configurations........................................................................................................................................................................8 VEP4600 IO-side..................................................................................................................................................................10 VEP4600 PSU-side..............................................................................................................................................................10 Architecture.......................................................................................................................................................................... 10 uCPE.......................................................................................................................................................................................11 SD-WAN deployment.......................................................................................................................................................... 12 MPLS off-load...................................................................................................................................................................... 12 Dual Internet WAN............................................................................................................................................................... 12 Multipath interconnect transit............................................................................................................................................13 Software................................................................................................................................................................................13
Trim.................................................................................................................................................................................. 13
Chapter 3: Power, cooling, acoustics.............................................................................................. 15 PSUs...................................................................................................................................................................................... 15 Cooling and environment.................................................................................................................................................... 15 Acoustics............................................................................................................................................................................... 15
Chapter 4: Additional specifications................................................................................................ 16 Product specifications......................................................................................................................................................... 16 Regulatory compliance.........................................................................................................................................................17 Agency compliance.............................................................................................................................................................. 18
USA Federal Communications Commission statement............................................................................................. 18 Industry Canada Statement.......................................................................................................................................... 18 Brazil Aviso da Anatel................................................................................................................................................. 19 European Union EMC directive conformance statement......................................................................................... 19 Japan VCCI compliance for class A equipment......................................................................................................... 20 Korean certification of compliance..............................................................................................................................20 Mexican certification of compliance............................................................................................................................ 21 Taiwanese certification of compliance.........................................................................................................................21 Singapore certification of compliance..........................................................................................................................21
Chapter 5: Dell EMC support..........................................................................................................22
Contents
Contents 3
Overview
The Dell EMC Virtual Edge Platform VEP4600 is a networking platform that is purpose-built, future-ready, and validated for next generation access deployments.
The VEP4600 is a single-socket, 1RU platform that offers hosted virtualized network functionality, with applicability for the Service Provider Edge and Enterprise Branch. The VEP4600 uses the latest Intel Xeon D-2100 x86-based processor.
The VEP4600 features:
Intel Xeon-D 2100 processor product family4-, 8-, and 16-core Four dual in-line memory module (DIMM) slots, up to 128 GB Two M.2 solid-state drive (SSD) slots Two mezzanine slots based on PCI3 x16 gen 3 Two 10G small form-factor pluggable plus (SFP+) network ports Four 1GE ports Out-of-band management ports Kernel-based virtual machine (KVM), ESXi hypervisors, with native Linux and Versa OS support
NOTE: For a complete list of VEP4600 features, see Specifications.
1
4 Overview
Features
VEP4600 is an ideal solution that provides simplified deployment and validated hardware and software options. VEP4600 provides the necessary headroom for hosting network function vitalization (VNF) services. As universal customer premise equipment (uCPE), VEP4600 is ideal for hosting SD-WAN and other VNF services such as routing, firewall WAN optimization, or deep-packet inspection. Use VEP4600 with Service Provider Edge and Enterprise Branch.
The VEP4600 platform offers:
Open and disaggregated networking Best-in-class x86-based networking platform Virtualized uCPE services such as a bare metal application or on top of a virtualized environment Front-facing I/O ports QuickAssist Technology (QAT) on 8-core and 16-core systems M.2 SATA SSD high-performance storage Out-of-band (OOB) management via Intelligent Platform Management Interface (IPMI) Baseboard management controller (BMC) KVM support ESXi hypervisors and native Linux
Topics:
Specifications Configurations VEP4600 IO-side VEP4600 PSU-side Architecture uCPE SD-WAN deployment MPLS off-load Dual Internet WAN Multipath interconnect transit Software
Specifications Table 1. VEP4600 specifications
Feature Specification
CPU Intel Xeon-D 21004-, 8-, and 16-core
Networking ports 4x1GbE 2x10GbE
Management ports Two 10/100/1000Base-T ports:
One port for the CPU One port for the BMC
USB ports Two USB Type-A receptacle female ports that support USB 3.0
One Micro USB Type-B receptacle female port for the console port
2
Features 5
Table 1. VEP4600 specifications (continued)
Feature Specification
Console ports Two serial console ports:
One port for the CPU One port fo the BMC
Storage option Two M.2 SATA up to 960GB per slot
OOB management BMC IPMI 2.0-compliant
Memory Four DIMM slots, up to 128 GB
TPM 2.0
QAT Yes, except for 4-core CPU
Expansion slots Two mezzanine slots based on PCIe x16 gen 3
BMC IPMI 2.0-compliant
PSUs Two hot-swappable PSUs
Fans Hot-swappable and redundant:
Maximum five fans for the 16-core CPU Maximum four fans for the 4- and 8-core CPUs
Airflow I/O-side to PSU-side
Optic support Both SFP+ ports support 10G SR, LR, USR, ZR, and 10GBT
Operating system LinuxUbuntu OS and Red Hat/CentOS
NOTE: Not factory installed
VMware ESXi Versa OS ADVA Connector
Dimensions and weight Height: 4.45 cm - 1.75 in Depth: 38.1 cm - 15 in Width: 43.4 cm - 17.1 in Weight: 13.75 lbs. (6.34 kg)One PSU and four fans 15.75 lbs. (7.14 kg)Two PSUs and five fans
Table 2. AC power specifications
Parameter Specification
AC power input 100 VAC-240 VAC, 50/60 Hz
Typical AC current draw per system 110 VAC: 1.8A for the 16-core processor 240 VAC: 0.85A for the 16-core processor
110 VAC: 1.5A for the 8-core processor 240 VAC: 0.7A for the 8-core processor
110 VAC: 1.35A for the 4-core processor 240 VAC: 0.65A for the 4-core processor
Typical power consumption 5-fan 16-core CPU: 206.5W 4-fan 8-core CPU: 170W 4-fan 4-core CPU: 160W
Maximum power consumption 5-fan 16-core CPU: 311W 4-fan 8-core CPU: 230W 4-fan 4-core CPU: 220W
6 Features
Table 2. AC power specifications (continued)
Parameter Specification
Power available for optics per SFP+ port 1 W
Table 3. Cooling specifications
Parameter Specifications
Thermal dissipation Typical: 682.43 BTU/hr (200 W) Maximum: 1023.64 BTU/hr (311 W)
Number of hot-swappable fans Four or five, depending on the configuration ordered
Minimum number of operational fans before shutdown Three fans for the 4- to 8-core processor Four fans for the 16-core processor
Minimum CFM Five fans: 35.4 Four fans: 28.5
Maximum CFM Five fans: 107.2 Four fans: 82.2
Table 4. Environmental Specifications
Parameter Specifications
Operating temperature 0C to 45C (32F to 113F)
Storage temperature -40C to 70C (-40F to 158F)
Operating relative humidity 5% to 85% (RH), non-condensing, continuously 5% to 90% (RH), non-condensing, short term (< 1% of
operational hour per year)
Storage relative humidity 5% to 90% (RH)
Operating altitude No performance degradation to 10,000 feet (3,048 meters)
Storage altitude 35,000 feet (10,688 meters)
Table 5. Acoustic noise with four fans and one PSU
Test location Acoustic noise (dBA)
Front 48.7
Back 56.2
Left 49.4
Right 49.5
Table 6. Acoustic noise with five fans and two PSUs
Test location Acoustic noise (dBA)
Front 49.8
Back 57.7
Left 51.0
Right 51.6
Features 7
Configurations VEP4600 is a single-socket, 1RU platform available in the following configurations:
Table 7. VEP4600 configurations
SKU Descriptio n
Region CPU Installed SW
Expansion slot
RAM Storage PSUs Fans
210-APGJ Intel Xeon- D 2100 4 core, 16 GB, Non- QAT, 2x10GbE SFP+, 4x1GbaseT
Global Intel Skylake-D
Cores: 4
Speed: 2.2 GHz
Cache: 1MB/core
QAT: No
ESXi 1x16 DDR4 RDIMM
128 GB 1 4 max
210-APGT Intel Xeon- D 2100 8 core, 16 GB, QAT, 2x10GbE SFP+, 4x1GbaseT
Global Intel Skylake-D
Cores: 8
Speed: 1.9 GHz
Cache: 1MB/core
QAT: Yes
ESXi 1x16 DDR4 RDIMM
240 GB 1 4 max
210-ATWN Intel Xeon- D 2100 8 core, 64 GB, QAT, 2x10GbE SFP+, 4x1GbaseT, VEP4600- V910
Global Versa 2x32 DDR4 RDIMM
240 GB 2 4 max
210-AXED Intel Xeon- D 2100 8 core, 64 GB, QAT, 2x10GbE SFP+, 4x1GbaseT, VEP4600- V910
US Fed Versa 2x32 DDR4 RDIMM
240 GB 2 4 max
210-APDH Intel Xeon- D 2100 8 core, 32 GB, QAT, 2x10GbE SFP+, 4x1GbaseT
China Intel Skylake-D
Cores: 8
Speed: 1.9 GHz
Cache: 1MB/core
QAT: Yes
ESXi 1x32 DDR4 RDIMM
960 GB 1 4 max
210-APGU Intel Xeon- D 2100 8 core, 32 GB, QAT, 2x10GbE SFP+, 4x1GbaseT
Global ESXi 1x32 DDR4 RDIMM
960 GB 1 4 max
210-AXEF Intel Xeon- D 2100 8
US Fed ESXi 1x32 DDR4 RDIMM
960 GB 1 4 max
8 Features
Table 7. VEP4600 configurations (continued)
SKU Descriptio n
Region CPU Installed SW
Expansion slot
RAM Storage PSUs Fans
core, 32 GB, QAT, 2x10GbE SFP+, 4x1GbaseT
210-AWTC Intel Xeon- D 2100 16 core, 64 GB, QAT, 2x10GbE SFP+, 4x1GbaseT VEP4600- V930
China Intel Skylake-D
Cores: 16
Speed: 2.0 GHz
Cache: 1MB/core
QAT: Yes
Versa 4 x10G x710 rNDC card
2x32 DDR4 RDIMM
960 GB 2 5 max
210-ATWM Intel Xeon- D 2100 16 core, 64 GB, QAT, 2x10GbE SFP+, 4x1GbaseT, VEP4600- V930 4x10G
Global Versa 4 x10G x710 rNDC card
2x32 DDR4 RDIMM
960 GB 2 5 max
210-AXEG Intel Xeon- D 2100 16 core, 64 GB, QAT, 2x10GbE SFP+, 4x1GbaseT
US Fed Versa 4 x10G x710 rNDC card
2x32 DDR4 RDIMM
960 GB 2 5 max
210-APGV Intel Xeon- D 2100 16 core, 32 GB, QAT, 2x10GbE SFP+, 4x1GbaseT
Global Intel Skylake-D
Cores: 16
Speed: 2.0 GHz
Cache: 1MB/core
QAT: Yes
ESXi 1x32 DDR4 RDIMM
240 GB 2 5 max
210-APGW Intel Xeon- D 2100 16 core, 64 GB, QAT, 2x10GbE SFP+, 4x1GbaseT
Global ESXi 2x32 DDR4 RDIMM
960 GB 2 5 max
210-AXEE Intel Xeon- D 2100 16 core, 64 GB, QAT, 2x10GbE SFP+, 4x1GbaseT
US Fed ESXi 2x32 DDR4 RDIMM
960 GB 2 5 max
Features 9
VEP4600 IO-side The I/O-side of the VEP4600 platform contains the access and uplink ports.
There are two fixed VEP4600 Expansion Cards slots on the I/O side which permits networking expansion with the additional network interface controller (NIC) ports.
Figure 1. VEP4600 I/O-side view
1. Platform status Icons LEDs 2. RS-232 console ports (top) and 10/100/1000 Base-T ports (bottom) 3. SFP+ ports 4. Luggage tag 5. 1000Base-T networking ports 6. Advanced Configuration and Power Interface (ACPI) Power button 7. Micro USB-B port 8. USB Type A ports 9. rNDC VEP4600 Expansion cards (optional)
VEP4600 PSU-side The VEP4600 PSU-side is the default location for PSUs, including the power connections, and fans.
The VEP4600 system provides two backplane options:
Four hot-swappable redundant fans for 4- and 8-core configurations Five hot-swappable redundant fans for 16-core configurations
Figure 2. VEP4600 PSU-side
1. PSUs 2. Fans
Architecture The VEP4600 platform consists of an Intel processor complex with these high-level features:
Table 8. VEP4600 processor features
Feature Specification
Storage Two M.2 SATA SSDs with support up to 960 GB, upgradable to 1.92TB with custom upgrade
Memory Four DDR4 RDIMM slots up to a total of 64GB in standard configuration, upgradable to 128GB with custom upgrade
Primary management ports 10/100/1000Base-T ports for system access:
One for the CPU
10 Features
Table 8. VEP4600 processor features (continued)
Feature Specification
One for the BMC
USB ports Two USB Type-A receptacle female ports supporting USB 3.0 with maximum data rates of 640 Mbps
One USB Type-B receptacle female port used as a console port. You can connect a laptop to this port using a standard male USB-A to a standard male USB-B cable
Console ports Two serial ports for system CPU access: An RJ-45 and a USB- B console port. The USB-B port acts as the console port. The terminal settings are the same for both.
One serial port available for system BMC access: An RJ-45 console port.
The terminal settings are the same for the USB-B port and the console port:
115200 baud rate No parity 8 data bits One stop bit Flow control disabled by default When the USB-B port is connected, it becomes the primary
connection. The system then sends all messages to the USB-B port.
PSUs The PSUs are located opposite to the I/O-side. Depending on the configuration you select, the platform ships with one or two AC PSUs.
Fans Depending on the configuration that you select, the platform ships with four or five field replaceable fan trays.
uCPE Universal customer premise equipment (uCPE) is a disaggregated hardware-based solution that supports NFV-like workloads at the edge, such as the customer or branch. The device is a remotely manageable platform that service providers can deploy, modify, or delete VNFs from a customer site over a wide area network (WAN).
Figure 3. uCPE
Table 9. uCPE advantages
Current model uCPE
Proprietary architecture, disjointed solution, and hardware that results in high total cost of ownership
Open architecture and commercial off-the-shelf hardware
Complex operation model that cannot scale with growing demand. Agile technology and services
Features 11
Table 9. uCPE advantages (continued)
Current model uCPE
Every application requires an individual CPE, each with long upgrade cycles.
Independent hardware and software life cycles that enable agility in new services delivery
Dynamic scale-up and scale-out
SD-WAN deployment Traditionally, wide area networks (WANs) were built over private multiprotocol label switching (MPLS) connections. This provided the security, quality, and class of service (QoS/CoS) that is required by dominant client/server communications from branch-to-data center traffic. Although this configuration is secure and deterministic, it is highly rigid and expensive.
SD-WAN provides a secure and encrypted software-defined virtual network that overlays existing physical network technologies. This overlay provides a transport/access solution that allows you to manage the disparate underlay networks such as MPLS, Broadband as a single intelligent fabric. The overlay also provides application-aware routing, zero-touch provisioning, traffic steering, SLA verification, self- healing, visualization, and common centralized policy management of the network.
The examples that are shown are the most common SD-WAN use cases. The SD-WAN solution in these examples provides a common transport/access agnostic, centrally managed, dynamic application-aware routing solution that you can use in many different ways.
MPLS off-load To reduce the investment in MPLS bandwidth, when using low-cost broadband against higher-cost MPLS, less mission-critical traffic is typically off-loaded onto lower-cost Internet. Services that require QoS/CoS such as VoIP, are sent over MPLS where edge-to-edge prioritization is supported.
You can firewall Internet traffic via local Internet breakout at the premise or use as a low-cost transport alternative for linking branch locations to each other or centralized data centers over an encrypted tunnel. Through centralized policy management and application- based aware routing, the overlay network can make decisions dynamically and intelligently.
This example may also serve as a primary/back-up option if you want to use MPLS as primary and Internet as a secondary back-up.
Figure 4. MPLS off-load
Dual Internet WAN This solution offers support for a bring your own access (BYOA) deployment model.
Due to the nature of the Internet, underlying transports offer only best effort, no edge-to-edge QoS/CoS. However, you can offset this limitation by selecting redundant providers that offer different peering points to the Internet. As network conditions fluctuate, the dynamic routing intelligence constantly searches for the best possible path and routes traffic accordingly. This dynamic routing ensures better performance than a single broadband link or broadband links of the same carrier.
The integrated firewall features and overlay link encryption provide a high level of security. Also, recent SD-WAN software innovations include self-healing and packet-loss recovery capabilities that improve Internet and MPLS.
12 Features
Figure 5. Dual Internet WAN
Multipath interconnect transit This example shows SD-WAN capabilities that are used to their maximum potential. The overlay network meshes and interconnects between three different clouds and their related access. Traffic steering implements to use any connection to accomplish the policies that the controller mandates.
The previous examples were accomplished through point-to-point tunnels between the source and destination. In this case, the tunnels terminate at intermediate points in the network. This routing provides more routing options for resiliency and performance.
Figure 6. Multipath interconnect transit
Software Built primarily for SD WAN and uCPE the general purpose VEP4600 provides hypervisor operating system (OS) configurations if supported by the Intel Xeon architecture.
Dell EMC is continually testing and validating software for the VEP4600. Currently, Velocloud, Versa, ESXi and Adva Ensemble are validated. Plans to offer these as pre-loaded bundles are in progress. Announcements when ready.
Trim Trim (TRIMM in ATA command set, and UNMAP in SCSI command set) informs a SSD which blocks and or data that can be safely deleted.
Features 13
Trim addresses the different low-level SSD operations compared to legacy hard drive protocols. Trim improves standard write operations and efficient garbage collection of SSD blocks on SSD drives.
14 Features
Power, cooling, acoustics With energy costs rising and the increase of data center density, Dell EMC provides technologies to help you realize greater performance with lower energy cost and waste.
Topics:
PSUs Cooling and environment Acoustics
PSUs The VEP4600 supports two AC hot-swappable power supply units (PSUs) with I/O-side to PSU-side airflow. Two PSUs are required for full redundancy. Depending on the configuration you order, the VEP4600 ships with one or two PSUs.
The VEP4600 platform comes preinstalled with one AC PSU (4- and 8-core units) and four field-replaceable fan modules or two AC PSUs (16-core units) and five field-replaceable fan modules, depending on the configuration that is purchased. When the VEP4600 runs with full redundancy, which consists of two PSUs installed and running, you can remove and replace one PSU while the other PSU is running without disrupting traffic.
For AC power specifications, see Specifications.
Cooling and environment The thermal management for the VEP4600 delivers high performance through optimized component cooling at the lowest fan speeds across a wide range of ambient temperatures. These environmental optimizations result in lower fan power consumption for lower total system power and data-center power consumption.
For cooling and environmental specifications, see Specifications.
Acoustics Dell EMC focuses on sound quality and the sound power and sound pressure levels.
Sound quality describes how disturbing or pleasing a sound is interpreted. Dell EMC references various psycho-acoustic metrics and thresholds. For example, tone prominence is one such metric.
Sound power and pressure levels increase with greater populations or higher utilization. Sound quality remains good even as the frequency content changes.
Dell EMC uses ISO 7779 to measure A-weighted sound pressure levels. For acoustic noise and vibration specifications, see Specifications.
3
Power, cooling, acoustics 15
Additional specifications The following information applies to the VEP4600 platform:
Topics:
Product specifications Regulatory compliance Agency compliance
Product specifications The following are product specifications for the VEP4600 platform:
Table 10. VEP4600 product specifications
Feature Overview
Processor Xeon microprocessors based on the Intel Skylake micro- architecture with up to 16 cores and several platform-level innovations:
Up to 16-core Intel Skylake technology Integrated 10GbE/1GbE Ethernet with RDMA Integrated QAT on both the 8-core and 16-core processors
Socket and TDP FCBGA 45 mm x 52.5 mm; Up to 110 W
Memory DDR4 2666 MT/s Four DIMM Slots Up to 128 GB
Out of band management BMC IPMI 2.0 compliant
Accelerators (QAT) (for 8 and 16-core systems) Crypto: Up to ~100 Gb/s IPSec/SSL Compression: Up to ~100 Gb/s Public Key: Up to RSA2K 100K Ops
Port configuration options 4x1GE + 2x10GE
Management ports 1x1G Mgmt port to CPU
Design 1RU
Dimension (HxWxD) 1.75 in x 17.1 in x 15 in
Chassis weight with factory-installed components 16.40lbs (7.43 kg), (2 PSUs, and 5 fans, 1 rNDC card)
Power supply 100240 VAC 50/60 Hz
Typical current draw per platform 110VAC: 1.89A (16 core) 240VAC: 0.86 A (16 core) 110VAC: 1.5A (8 core ) 240VAC: 0.7A (8 core) 110VAC: 1.35A (4 core) 240VAC: 0.65A (4 core)
Maximum power capability 5-fan 16-core processor: 311W 4-fan 8-core processor: 230W 4-fan 4-core processor: 220W
4
16 Additional specifications
Table 10. VEP4600 product specifications (continued)
Feature Overview
Typical power consumption 5-fan 16-core processor: 206.5W 4-fan 8-core processor: 170W 4-fan 4-core processor: 160W
Serviceability Hot swappable fans and PSUs 10 screws to open the top chassis cover Memory is field replaceable by Dell Technicians or Dell certified
partners
USB Two USB Type-A
BIOS Legacy or UEFI
BMC IMPI 2.0-compliant
Hypervisor VMware ESXi and KVM
VNF SD-WAN, security, WAN optimization, routing
Regulatory compliance
Safety UL/CSA 60950-1, Second Edition EN 60950-1, Second Edition IEC 60950-1,Second Edition including all national deviations and group difference IEC 62368-1 EN 60825-1 Safety of Laser Products Part 1: Equipment Classification Requirements and User's Guide EN 60825 2 Safety of Laser Products Part 2: Safety of Optical Fiber Communication Systems FDA Regulation 21 CFR 1040.10 and 1040.11
Emissions Australia/New Zealand: AS/NZS CISPR 32, Class A Canada: ICES3/NMB-3, Class A Europe: EN 55024 (CISPR 24), Class A Japan: VCCI Class A USA: FCC CFR 47 Part 15, Subpart B, Class A
Immunity EN 300 386 EMC for Network Equipment EN 55024 EN 6100032: Harmonic Current Emissions EN 6100033: Voltage Fluctuations and Flicker EN 6100042: ESD EN 6100043: Radiated Immunity EN 6100044: EFT EN 6100045: Surge EN 6100046: Low Frequency Conducted Immunity
Additional specifications 17
RoHS EN 50581:2012 All S9999 components are EU RoHS compliant
Agency compliance The VEP4600 is designed to comply with the following safety and agency requirements:
USA Federal Communications Commission statement This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions:
1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation.
This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to Part 15 of the FCC Rules.
These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one of the following measures.
Reorient or relocate the receiving antenna.
Increase the separation between the equipment and receiver.
Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.
Consult the dealer or an experienced radio/TV technician for help.
FCC Caution: Any changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate this equipment.
This transmitter must not be co-located or operating in conjunction with any other antenna or transmitter.
Radiation Exposure Statement: This equipment complies with FCC radiation exposure limits set forth for an uncontrolled environment. This equipment should be installed and operated with minimum distance 20cm between the radiator & your body.
Industry Canada Statement This device complies with Industry Canada license-exempt RSS standard(s). Operation is subject to the following two conditions:
1. This device may not cause interference, and 2. This device must accept any interference, including interference that may cause undesired operation of the device.
Le prsent appareil est conforme aux CNR d'Industrie Canada applicables aux appareils radio exempts de licence. L'exploitation est autorise aux deux conditions suivantes:
1. l'appareil ne doit pas produire de brouillage, et 2. l'utilisateur de l'appareil doit accepter tout brouillage radiolectrique subi, mme si le brouillage est susceptible d'en compromettre le
fonctionnement.
This Class A digital apparatus complies with Canadian ICES-003.
Cet appareil numrique de la classe A est conforme la norme NMB-003 du Canada.
This device complies with RSS-247 of Industry Canada. Operation is subject to the condition that this device does not cause harmful interference.
Cet appareil est conforme la norme RSS-247 d'Industrie Canada. L'opration est soumise la condition que cet appareil ne provoque aucune interfrence nuisible.
18 Additional specifications
Brazil Aviso da Anatel Este equipamento opera em carter secundrio, isto , no tem direito a proteo contra interferncia prejudicial, mesmo de estaes do mesmo tipo, e no pode causar interferncia a sistemas operando em carter primrio.
Brazilian certificante
European Union EMC directive conformance statement This product is in conformity with the protection requirements of EU Council Directive 2004/108/EC on the approximation of the laws of the Member States relating to electromagnetic compatibility. Dell EMC cannot accept responsibility for any failure to satisfy the protection requirements resulting from a non-recommended modification of this product, including the fitting of non-Dell EMC option cards.
This product has been tested and found to comply with the limits for Class A Information Technology Equipment according to CISPR 32/ CISPR34 and EN55032 / EN55034. The limits for Class A equipment were derived for commercial and industrial environments to provide reasonable protection against interference with licensed communication equipment.
NOTE: This is a Class A product. In a domestic environment, this device may cause radio interference, in which case,
you may be required to take adequate measures.
European Community Contact
Dell EMC, EMEA - Central
Dahlienweg 19
66265 Heusweiler
Germany
Tel: +49 172 6802630
Email: EMEA Central Sales
Additional specifications 19
Japan VCCI compliance for class A equipment
Figure 7. Japan: VCCI compliance for class A equipment
This is Class A product based on the standard of the Voluntary Control Council For Interference by Information Technology Equipment (VCCI). If this equipment is used in a domestic environment, radio disturbance may arise. When such trouble occurs, the user may be required to take corrective actions.
NOTE: Use the AC power cords with Dell EMC equipment only. Do not use Dell EMC AC power cords with any
unauthorized hardware.
Figure 8. Japan: warning label
Korean certification of compliance
Figure 9. Korean certification of compliance
Figure 10. Korean package label
20 Additional specifications
Radio compliance certificate Korea (Korean warning statement is only required for devices contain 2400~2483 and/or 5725~5825 MHz radios)
Korean radio compliance certificate
Mexican certification of compliance Mexican compliance.
La operacin de este equipo est sujeta a las siguientes dos condiciones:
1. es posible que este equipo o dispositivo no cause interferencia perjudicial y 2. este equipo o dispositivo debe aceptar cualquier interferencia, incluyendo la que pueda causar su operacin no deseada.
Taiwanese certification of compliance Taiwanese radio compliance.
:
5.25-5.35 Taiwanese radio compliance certificate
Singapore certification of compliance Singaporean radio compliance.
Complies with IMDA Standards
XXXXXX (xxxxxx = Dealer Code)
Certification pending.
Additional specifications 21
Dell EMC support The Dell EMC support site provides documents and tools to help you effectively use Dell EMC equipment and mitigate network outages. Through the support site you can obtain technical information, access software upgrades and patches, download available management software, and manage your open cases. The Dell EMC support site provides integrated, secure access to these services.
To access the Dell EMC support site, go to www.dell.com/support/. To display information in your language, scroll down to the bottom of the web page and select your country from the drop-down menu.
To obtain product-specific information, enter the 7-character service tag, known as a luggage tag, or 11-digit express service code of your switch and click Submit.
To view the chassis ser
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The Technology Guide should include all the details that are needed to use a Dell VEP4600. Full manuals and user guide PDFs can be downloaded from Manualsnet.com.
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This Dell VEP4600 16 Core Networking Solution Technology Guide consists of sections like Table of Contents, to name a few. For easier navigation, use the Table of Contents in the upper left corner.
You can download Dell VEP4600 16 Core Networking Solution Technology Guide free of charge simply by clicking the “download” button in the upper right corner of any manuals page. This feature allows you to download any manual in a couple of seconds and is generally in PDF format. You can also save a manual for later by adding it to your saved documents in the user profile.
To be able to print Dell VEP4600 16 Core Networking Solution Technology Guide, simply download the document to your computer. Once downloaded, open the PDF file and print the Dell VEP4600 16 Core Networking Solution Technology Guide as you would any other document. This can usually be achieved by clicking on “File” and then “Print” from the menu bar.