> For the complete documentation index, see [llms.txt](https://docs.filecoin.io/llms.txt). Markdown versions of documentation pages are available by appending `.md` to page URLs; this page is available as [Markdown](https://docs.filecoin.io/provide-storage/infrastructure/network.md). # Network ## Internet bandwidth The amount of internet bandwidth required for a network largely depends on the size of the organization and customer expectations. A bandwidth between 1 Gbps and 10 Gbps is generally sufficient for most organizations, but the specific requirements should be determined based on the expected traffic. Workloads with high-throughput retrieval services may require 10 Gbps or more. ## LAN bandwidth The bandwidth between different components of a network is also important, especially when transferring data between servers. The internal connectivity between servers should be at least 10 Gbps to ensure that planned sealing capacity is not limited by network performance. It is important to ensure that the servers and switches are capable of delivering the required throughput, and that firewalls are not the bottleneck for this throughput. ## VLANs Virtual Local Area Networks (VLANs) are commonly used to separate network traffic and enhance security. However, if firewall rules are implemented between VLANs, the firewall can become the bottleneck. To prevent this, it is recommended to keep all sealing workers, Lotus miners, and storage systems in the same VLAN. This allows for data access and transfer without involving routing and firewalls, thus improving network performance. ## Redundancy Network redundancy is crucial to prevent downtime and ensure uninterrupted operations. By implementing redundancy, individual networking components can fail without disrupting the entire network. Common industry standards for network redundancy include NIC (network interface card) bonding, LACP (Link Aggregation Control Protocol), or MCLAG (Multi-Chassis Link Aggregation Group). ## Common topologies Depending on the size of the network, different network topologies may be used to optimize performance and scalability. For larger networks, a spine-leaf architecture may be used, while smaller networks may use a simple two-tier architecture. Spine-leaf architectures provide predictable latency and linear scalability by having multiple L2 leaf switches that connect to the spine switches. On the other hand, smaller networks can be set up with redundant L3 switches or a collapsed spine/leaf design that connect to redundant routers/firewalls. It is important to determine the appropriate topology based on the specific needs of the organization. [Was this page helpful?](https://airtable.com/apppq4inOe4gmSSlk/pagoZHC2i1iqgphgl/form?prefill_Page+URL=https://docs.filecoin.io/storage-providers/infrastructure/network) --- # Agent Instructions This documentation is published with GitBook. GitBook is the documentation platform designed so that both humans and AI agents can read, navigate, and reason over technical content effectively. Learn more at gitbook.com. ## Querying This Documentation If you need additional information that is not directly available in this page, you can query the documentation dynamically by asking a question. Perform an HTTP GET request on the current page URL with the `ask` query parameter, and the optional `goal` query parameter: ``` GET https://docs.filecoin.io/provide-storage/infrastructure/network.md?ask=&goal= ``` `ask` is the immediate question: it should be specific, self-contained, and written in natural language. `goal` is optional and describes the broader end goal you are ultimately trying to accomplish on behalf of the user. GitBook uses it to tailor the answer towards what is most useful for that goal. The response will contain a direct answer to the question and relevant excerpts and sources from the documentation. Use this mechanism when the answer is not explicitly present in the current page, you need clarification or additional context, or you want to retrieve related documentation sections.