|Place of Origin:||China|
|Certification:||CCC, CE, RoHS|
|Minimum Order Quantity:||1 SET|
|Packaging Details:||Outer Carton plus Inner Foam|
|Delivery Time:||1-3 Working Days|
|Payment Terms:||L/C, D/A, D/P, T/T, Western Union, MoneyGram|
|Supply Ability:||100 sets per month|
|Public Cloud:||A Cloud That Can Be Used By Third Party Provider Users||Private Cloud:||Built For Use By A Single Customer|
|Hybrid Cloud:||A Combination Of Public And Private Cloud Services||Reliability:||PEM Module Power, Good Heat Dissipation Channel|
|Applications:||Public Cloud, Private Cloud And Hybrid Cloud||SDN Makes:||Network And All IT Systems Better|
ethernet packet generator,
multicast traffic generator
Net TAP Security and Networking for Public Cloud Private Cloud and Hybrid Cloud
Public Cloud VS Private Cloud VS Hybrid Cloud
With the evolution of cloud computing, almost every enterprise plans or is using cloud computing today, but not every enterprise USES the same type of cloud pattern.There are actually three different cloud models, including public clouds, private clouds, and hybrid clouds.To help determine which cloud model is best suited to the needs of the enterprise, here's how the three models compare and contrast.
Public Clouds is usually a cloud that can be used by third party provider users. A public cloud is generally available over the Internet and may be free or inexpensive.There are many instances of such a cloud that can be served across today's open public network.The biggest significance of public cloud is that it can provide attractive services to end users at a low price and create new business value. As a supporting platform, public cloud can also integrate upstream service providers (such as value-added services and advertising) with downstream end users to create a new value chain and ecosystem.It enables customers to access and share basic computer infrastructure, including hardware, storage, and bandwidth.
Pros: in addition to providing services over the network, customers only have to pay for electricity for the resources they use.In addition, because organizations have access to the service provider's cloud computing infrastructure, they don't have to worry about installing and maintaining it themselves.
Cons: safety related.Public clouds typically do not meet many security compliance requirements because different servers reside in multiple countries and have various security regulations.Also, network problems can occur during peak online traffic.While the public cloud model is generally cost-effective by providing pay-as-you-go pricing, the cost of moving large amounts of data quickly increases.
Private Clouds are built for use by a single customer, thus providing the most effective control over data, security, and quality of service.The company owns the infrastructure and can control how applications are deployed on that infrastructure.Private clouds can be deployed within the firewall of an enterprise data center, or they can be deployed in a secure hosting location.Private clouds are a huge security issue, and some companies are starting to build their own private clouds.
Advantage: provides greater security because a single company is the only specified entity that can access it.This also makes IT easier for organizations to customize their resources to meet specific IT requirements.
Cons: high installation costs.In addition, the enterprise is limited to the cloud computing infrastructure resources specified in the contract.The high level of security in private clouds can also make it difficult to access from remote locations.
Hybrid Clouds is a combination of public and private cloud services.Because of security and control reasons, not all enterprise information can be placed on the public cloud, so most enterprises that already use cloud computing will use the hybrid cloud model.Many will choose to use both public and private clouds, and some will build public clouds as well.Since public clouds only charge users for the resources they use, centralized clouds will become a very cheap way to handle spikes in demand.For some retailers, for example, operational demand will soar with the holiday season, or some businesses will experience a seasonal uptick.Hybrid clouds also provide a good basis for resilient demand for other purposes, such as disaster recovery.This means that private clouds use the public cloud as a platform for disaster transfer and use it when needed.This is a very cost effective concept.Another good idea is to use the public cloud as an alternative platform, while choosing other public clouds as disaster transfer platforms.
Pros: allows users to take advantage of public and private clouds.It also provides great flexibility for applications to move around in a cloudy environment.In addition, the hybrid cloud model is cost-effective because enterprises can decide to use more expensive cloud computing resources as needed.
Cons: difficult to maintain and protect because the setup is more complex.In addition, because a hybrid cloud is a combination of different cloud platforms, data, and applications, consolidation can be a challenge.There are also major compatibility issues between infrastructures when developing hybrid clouds.
What's the Matrix Modular Designed Plug-in Network Packet Broker to do in Cloud?
With the acceleration of carrier broadband construction and the rapid development of 3G, 4G, and 5G networks, and with the popularity and development of big data and cloud computing technologies, data traffic is growing, and the bandwidth requirements for backbone networks and core networks are increasing. Since 2013, the major operators have begun to gradually upgrade the backbone network. The core backbone network transmission link media starts to be expanded from 10GPOS and 40GPOS links to 100G Ethernet links. It will inevitably lead to the continuous updating of big data collection and analysis technology. In the face of 100GE link environment with high bandwidth capacity, how to effectively meet the requirements of various national security, network security monitoring, operator intelligent pipeline DPI data collection and analysis will become a hot spot in the field of data acquisition and analysis.
Chengdu Shuwei Communication is following the development direction of the Internet and develop the MATRIX-TCA-CG Traffic Acquisition(Traffic Capture) Visibility System, and dedicated to the traffic collection and visual analysis application requirements on 1GE, 10GE, 10G/40G POS, 40GE and 100GE links. The MATRIX-TCA-CG integrates free-steering output functions such as network flow collection/acquisition, aggregation, filtering, forwarding/distribution, and load balancing and provides an efficient solution for the flow analysis.
Matrix-TCA-CG is a network data visualization control device for high density and large flow of 10G/40G/100G.
Matrix-TCA-CG is specially designed for the data collection of 10GE 40GE and 100GE links distributed intensively in operators mobile Internet export, IDC export, provincial network and backbone.
Based on ATCA standard architecture, MATRIX-TCA-CG has high carrier-level reliability and strong expansibility which can smoothly configure the functional board CARDS to cope with port demand scenarios of various specifications and sizes.
Unified Visibility Modules Source Management
The MATRIX-TCA traffic acquisition visibility system is the industry's first to use graphical-based centralized visual resource management to provide a WYSIWYG-based board resource management interface based on the Web interface on the main control card of the whole machine. The user can visually view the current chassis view, all inserted card views in the chassis, and the working status view of each board on the resource management panel to provide a simple management mechanism for complex board management.
Unified Traffic Visibility Policy View Management
The MATRIX-TCA traffic acquisition visibility system implements unified visual management of traffic collection and distribution strategies for all cards of the whole machine, and determines the master control based on certain master election rules. All slot card policies in the chassis will be completed in the main control card set. Do not manually switch to other cards.
Unified card port resources and configuration views. The unified interface is used to address the service interface of each board through the unified port type, slot number, sub-slot number, or port number. The port configuration and subsequent policies are implemented. Port naming can be visually referenced in the management configuration view, which greatly facilitates the user's management configuration.
Backplane topology hides data auto-routing. The whole machine provides centralized data automatic cross-board routing technology. Users only need to pay attention to the service interfaces of the front and rear panels without paying attention to the backplane connection topology. The visual management software will automatically calculate the cross-board data routing based on the actual board connection for policy application. Configuration coordination greatly simplifies user configuration.
A unified policy management configuration view. The device provides a centralized traffic distribution policy configuration management view. Users can flexibly define data acquisition and output policies in the board. They can also flexibly define cross-board load balancing, cross-board data collection, and offload output policies.
Convenient cards software version maintenance management. All boards use the same software version, and can be upgraded in various ways (based on WEB/TFTP/FTP, etc.) to simplify user maintenance and upgrade operations.
Network Packet Broker Specification and Module Type
|Component type||Product Model||Basic Parameter||Remarks|
|Chassis||NTCA-CHS-7U7S-DC||Height:7U,7 slots, ATCA Chassis, double star 100G backplane, 3 high voltage DC(240VDC~280VDC) input,3* 2+1 redundant 3000W power modular||Must choose one|
|NTCA-CHS-7U7S-AC||Height:7U,7 slots, ATCA Chassis, double star 100G backplane, 3 high voltage AC(240VDC~280VDC) input,3* 2+1 redundant 3000W power modular|
|Service card||NT-TCA-SCG10||100G exchange card,10*QSFP28 interface||Choose according to actual business needs|
|NT-TCA-CG10||100G service card,10*QSFP28 interface|
|NT-TCA-XG24||10G service card,24*SFP+ interface|
|NT-TCA-RTM-CG10||100G RTM card,10*QSFP28 interface|
|NT-TCA-RTM-EXG24||10G RTM card,24*SFP+ interface|
|TCA Visibility Embedded software system||NT-TCA-SOFT-PKG||must|
|Chassis size||NTCA-CHS-7U7S-DC:310.45mm(H) × 482.6mm(W)× 443.6mm(D)|
|NTCA-CHS-7U7S-AC:310.45mm(H) × 482.6mm(W)× 443.6mm(D)|
|NTCA-CHS-16U14S-DC:708.35 mm(H) × 482.6mm(W)× 502.15mm(D)|
|NTCA-CHS-16U14S-AC:708.35 mm(H) × 482.6mm(W)× 502.15mm(D)|
|Adapter chassis and power||Power supply|
|NTCA-CHS-7U7S-DC:High voltage DC(240VDC~280VDC)|
|NTCA-CHS-16U14S-DC:High voltage DC(240VDC~280VDC)|
|NTCA-CHS-7U7S-DC:Full configuration maximum power consumption < 3000W|
|NTCA-CHS-7U7S-AC:Full configuration maximum power consumption < 3000W|
|NTCA-CHS-16U14S-DC:Full configuration maximum power consumption < 5000W|
|NTCA-CHS-16U14S-AC:Full configuration maximum power consumption < 5000W|
|Environment requirement||Working temperature:0℃~50℃|
|Standard Certification||Advanced®specification PICMG® 3.0 R2.0|
|RoHs,Designed for CE,FCC,NEBS Level 3|
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