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Project title: Build topological and logical network diagrams
Type of cooperation: One-time project
Section: Other / Miscellaneous
Prepayment: prepayment is possible
Payment methods: Cash, Electronic money
Acceptance of requests: closed
Type of cooperation: One-time project
Section: Other / Miscellaneous
Prepayment: prepayment is possible
Payment methods: Cash, Electronic money
Acceptance of requests: closed
Project description:
The following tasks must be performed in the discipline of computer networks.
1. Let the five-person job space be placed in a 5x5 room. Select technologies with a transfer rate of at least 100 MB / s. Provide topological and logical diagrams of the network, and provide a description of the distribution of ports.
2. Let the jobs for 30 employees be placed in a 10x10 room. Select technologies with a transfer rate of at least 100 MB/s for a shared channel. Provide topological and logical diagrams of the network, and provide a description of the distribution of ports.
3. Let 50 employees' jobs be placed in a 30x10 room. Select technologies with a transfer rate of at least 100 MB/s for a shared channel. Provide topological and logical diagrams of the network, and provide a description of the distribution of ports.
4. Let 50 employees' jobs be placed in a 20x10 room. The employees are organized into 3 independent working groups. Select the required technologies with a transmission rate of at least 100 MB / s for the common channel according to the terms of distribution of workgroups. Explain the choice of solution. Provide topological and logical diagrams of the network, and provide a description of the distribution of ports.
5. Let 50 employees' jobs be placed in a 30x10 room. The employees are organized into 3 independent working groups. Select the required technologies with a transfer rate of at least 100 MB / s for a common channel according to the terms of distribution of workgroups using the router. Provide topological and logical diagrams of the network, and provide a description of the distribution of ports.
6. Let 50 employees' jobs be placed in a 30x10 room. The employees are organized into 3 independent working groups. Select the required technologies with a transfer rate of at least 100 MB/s for a common channel when allocating workgroups using a central switching system (three switches that are connected to a ring with the STP protocol). Provide topological and logical diagrams of the network, and provide a description of the distribution of ports.
7. Let 50 employees' jobs be placed in a 30x10 room. The employees are organized into 3 independent working groups. Select the required technologies with a transfer rate of at least 100 MB / s for the common channel, provided that the full distribution of workgroups using switches is provided.
(Tree topology) Provide topological and logical diagrams of the network, and provide a description of the distribution of ports.
8. Let 50 employees' jobs be placed in a 30x10 room. The employees are organized into 3 independent working groups. Select the required technologies with a transmission rate of at least 100 MB/s for a common channel, provided that the full distribution of workgroups using multiple yaki switches are connected to a ring topology. Explain the feature.
The following tasks must be performed in the discipline of computer networks.
1. Let the five-person job space be placed in a 5x5 room. Select technologies with a transfer rate of at least 100 MB / s. Provide topological and logical diagrams of the network, and provide a description of the distribution of ports.
2. Let the jobs for 30 employees be placed in a 10x10 room. Select technologies with a transfer rate of at least 100 MB/s for a shared channel. Provide topological and logical diagrams of the network, and provide a description of the distribution of ports.
3. Let 50 employees' jobs be placed in a 30x10 room. Select technologies with a transfer rate of at least 100 MB/s for a shared channel. Provide topological and logical diagrams of the network, and provide a description of the distribution of ports.
4. Let 50 employees' jobs be placed in a 20x10 room. The employees are organized into 3 independent working groups. Select the required technologies with a transmission rate of at least 100 MB / s for the common channel according to the terms of distribution of workgroups. Explain the choice of solution. Provide topological and logical diagrams of the network, and provide a description of the distribution of ports.
5. Let 50 employees' jobs be placed in a 30x10 room. The employees are organized into 3 independent working groups. Select the required technologies with a transfer rate of at least 100 MB / s for a common channel according to the terms of distribution of workgroups using the router. Provide topological and logical diagrams of the network, and provide a description of the distribution of ports.
6. Let 50 employees' jobs be placed in a 30x10 room. The employees are organized into 3 independent working groups. Select the required technologies with a transfer rate of at least 100 MB/s for a common channel when allocating workgroups using a central switching system (three switches that are connected to a ring with the STP protocol). Provide topological and logical diagrams of the network, and provide a description of the distribution of ports.
7. Let 50 employees' jobs be placed in a 30x10 room. The employees are organized into 3 independent working groups. Select the required technologies with a transfer rate of at least 100 MB / s for the common channel, provided that the full distribution of workgroups using switches is provided.
(Tree topology) Provide topological and logical diagrams of the network, and provide a description of the distribution of ports.
8. Let 50 employees' jobs be placed in a 30x10 room. The employees are organized into 3 independent working groups. Select the required technologies with a transmission rate of at least 100 MB/s for a common channel, provided that the full distribution of workgroups using multiple yaki switches are connected to a ring topology. Explain the feature.
