Do you know how to speed up global transfer for film productions? Raysync will give you the answer! As the enterprise file transfer expert, Raysync will participate in BaM LIVE!, a free webinar held by IABM, on September 22, sharing the file transfer technology with attendees. - Theme: How to speed up global transfer for film productions - Time: 22nd September, 8:00-8:30 a.m. - Speaker: Ben Cheung, VP of Raysyn - Free webinar Link: https://theiabm.org/bam-live/ With the topic of how to speed up global transfer for film productions, Ben Cheung, the vice president of Raysync, will share the insights on how Raysync helps clients in render farm and post-production industries to achieve efficient and secure transfer and help clients speed up the data transfers up to 100 folds. If you are interested in the topic, please click here, register and book your free place NOW! After registering, you can participate in our webinar and other hot topic live events for free. BaM LIVE! is an online event designed for everyone in Broadcast & Media to interact and build business relationships with fellow participants and learn about the latest key trends and hot topics in the industry from a global range of diverse, expert speakers. This year, BaM LIVE! will focus on designing data-driven media supply chains. This includes AI and ML technology to create, manage and deliver content, the increasing reliance on data to power media’s digital transformation as well as evidence-driven supply chain management enabling informed decision-making at media organizations with informative and engaging sessions. Raysync is looking forward to e-meet you at BaM LIVE!
Introduction A point-to-point connection in telecommunications relates to a communication between two terminals or nodes. Point-to-point is shortened to P2P sometimes. In sharing platforms or in other data-sharing protocols between people, this use of P2P is separate from the use of P2P which means peer-to-peer. For instance, a telephone call when one phone is connected to another, and only the others could hear what one caller says. In contrast, this is a topology for point-to-multipoint or broadcast communication, where several nodes can receive information from a node. Additional instances of point-to-point links include leased lines, microwave relays, and two-way radio. For example, radio and television broadcasts are points-to-multiple. - Have you used P2P? P2P transfer is now widely used to share files by many enterprises in their work after LAN, FTP, and HTTP are outdated. - P2P transfer, known as point-to-point transfer, is an instant file transfer mode, which aimed to enable all clients to provide resources, including bandwidth, storage space, and computing capacity. P2P transfer technology has wide application scenarios, such as audio, video, and data sharing in various formats. - How does P2P technology transfer files instantly? Why P2P transfer is accepted widely by many enterprises? In this article, let’s start with these two questions and explore the answers to point-to-point transfer. Everything about P2P Transfer in One Picture With the growing number of IP cores combined on one chip, the system-on-chip architecture is able to deploy complicated applications. The enormous need for communication and the ample computing capability on the chip put a considerable burden on the architecture in communication. Scalable communication architectures are therefore needed to implement future systems efficiently. Two types of communication systems, namely point-to-point and bus-based designs have traditionally been explored. At the expense of the specific channels between all communicating IP pairs, P2P communication designs can provide the most communication performance. However, in terms of high complexity, expense, and design effort these designs are poorly scalable. By contrast, bus systems can connect a few dozen IP cores economically and eliminate the complexity of the system and the specific cables required by P2P systems. The traditional HTTP transfer is to copy data to the client via server, thus the transfer speed is restricted by the bandwidth. Especially in today's network environment, the large amount of clients connects to one server, the bandwidth of servers will be shared, and the bandwidth of clients is difficult to be fully utilized, resulting in low efficiency of overall data transfer. In general data transfer, client A and client B is essential to build a connection to the server, and then data will be transfer through the channel built by the server and data recipient. P2P transfer technology builds the direct channel between client A and client B, shorten the original upload-download "1+1" time to 1; Secondly, "client A-server-client b" is turned to "client A-client b", which does not transit through the server and does not consume the expensive storage space of the server. Figure 1. P2P transfer in one picture Cons & Pros of P2P Transfer P2P technology is popular in many industries such as film and media, Internet TV, telemedicine, it not only provides freedom and facility to data transfer but also integrates all potential Internet resources. In technical expert’s opinion, P2P transfer is a kind of instant technology for quick data moving and sharing, it is beneficial to creating opportunities for enterprises in today’s market environment driven by data. However, with 5G emerging and the continuous development of information technology, P2P transfer is undoubtedly a double-blade sword, so it’s difficult for enterprises to step forward. Cons: - Low cost: save the cost on the server. - Efficiency improved: remove the intermediate procedures and establish simple connections. - High stability: eliminate the server-centered single-point service in the past, form the decentralized P2P transfer organization, which solved the fault problem caused by the central single point. Pros: Network bandwidth resources are consumed in large quantities: The concurrent connection of P2P transfer makes the resources consumed in large quantities, it is easy to cause network congestion and reduce the performance of other applications. Inconvenient management: The P2P transfer is decentralized, the amount of users is huge thus it’s hard to take care of all users. Security risks of data leakage: The widely use of P2P transfer leads to someone use the loopholes in the system to invade user privacy and destroy data. Some criminals even add viruses in the P2P transfer process, which poses a threat to users' computer security. The P2P transfer technology is not strong enough to satisfy enterprises’ various needs, therefore, there must be a breakthrough. According to whether the clients are in the same network environment, the difficulty degree of P2P transfer technology is different. What modern technologies can be used to optimize and how to optimize? Let's continue to explore the principle of P2P technology and try to find a breakthrough. P2P technology upgrading Based on NAT+Raysync The transmission protocol of RaySync has abandoned the use of transmission messages as both byte counts and TCP protocol. With its revolutionary UDP transmission method, Raysync overcomes faults in existing TCP-based file transfer protocols . The transmission speed of FTP/HTTP is hundreds of times higher and is not reduced by the size of the file, transmit distance, or network difficulties. Raysync can offer secure internal and external sharing of data, enabling you to securely upload, download and edit files on a user-friendly interface. Send huge files via mobile devices and web browsers in every location and anywhere. Characteristics RaySync transmission protocol may make full use of a broad network of bandwidths for the fastest transfer of data. It can enable users in the huge data distribution application scenario to finish the big data transfer in the least time. The multi-channel parallel transmission feature of the link is supported by RaySync Transmission Protocol. When a client interfaces between point B and point A, a multiplicity of unrelated data streams can quickly be transferred in Parallel via the multi-parallel channel property. The transfer of these data streams does not require the handshake connection process, which considerably enhances the transmission in real-time. RaySync transmission protocol is UDP-based and may transit over various NAT devices smoothly. Here we divided into two situations for analysis: On the same network Assume that the internal network interface is 1000M, the LAN bandwidth is 10M, and the bandwidth utilization rate is 50%. Client A and Client B are in the same network environment, as shown in the following figure. If the traditional file transfer method is adopted, the A user needs to upload the file to the server first, and then B can download it from the server, there only 10M network bandwidth will be utilized in the whole transfer process. While through point-to-point transfer, A and B can directly establish a connection, file transfer makes full use of the network bandwidth of 1000M, and the transfer efficiency can be improved by 100X. Figure 2. P2P technology on the same network Raysync combined the P2P technology with Raysync ultra-high-speed transfer protocol, the network bandwidth is fully utilized up to 96%. The file transfer process is accelerated, the TB-level big data and massive data transfer have never been easier. Figure 3. P2P technology upgrading Based on NAT+Raysync On the different network Client A and client B are in two different network environments, and they need to try to connect with the target end to judge whether they can penetrate the network to establish communication. The P2P transfer between two clients will be different according to different clients. Several common P2P transfer methods through middleware include Relaying, Connection reversal, UDP hole punching. Through the following characteristic comparison table, we can simply grasp the characteristics and application scenarios of these methods. Table 1. Characteristics and compassion table According to the methods listed above, Raysync P2P transfer will try to connect with the recipient end in priority. If it is failed to connect, it will be connected by reverse connection or UDP punching. If it is still failed to connect, then the server transfers will be adopted. Raysync will automatically select the best transfer mode in the whole process, reduce the network burden and make full use of network resources. Besides, the P2P transfer based on UDP needs to consider the type of NAT, because the penetration ways of different NAT combinations are not consistent, some can penetrate, while some cannot. Figure 4. P2P technology on the different networks Digging deep into NAT penetration technology, Raysync combines more than 10 NAT penetration technologies with Raysyncb ultra-high-speed transfer protocol and simultaneously applies on P2P transfer. In practical application, the penetration effect of these 10 NAT combinations can meet the current P2P transfer needs. Even in the face of a few impenetrable situations, Raysync may still be able to improve the transfer efficiency and find the optimal solution for P2P transfer. A More Universal P2P Transfer through Innovation on Speed and Management Transfer acceleration ensures efficiency improving In the point-to-point transfer, the patented Raysync ultra-high-speed transfer protocol is adopted. This protocol can eliminate the bottleneck at the bottom layer, it is immune to limitation of the traditional network and hardware, fully utilize the network bandwidth, and realize ultra-low latency, high speed, and end-to-end output service, the transfer rate is improved by nearly one hundred times, thus easily achieves the safe, controllable and stable transfer of TB-level large files and massive small files. Figure 5. P2P technology on the different networks about penetration and acceleration Comparison of the point-to-point transfer efficiency Test environment: - Shenzhen-Beijing, network latency 35ms~45ms, packet loss rate 1% - Server: Alibaba cloud Shenzhen, CentOS 8.3, 2 vCPU 4 GiB, bandwidth 100M, SSD disk - ClientA: Alibaba cloud Shenzhen, CentOS 8.3, 2 vCPU 4 GiB, bandwidth 100M, SSD disk - ClientB: Alibaba cloud Beijing, CentOS 8.3, 2 vCPU 4 GiB, bandwidth 100M, SSD disk 2GB Large File Transfer: Raysync VS QQ Test Results: It takes 689 seconds to transfer 2GB files from Shenzhen to Beijing via QQ, with an average transfer speed of 23.77Mbps; While takes only 173 seconds with Raysync point-to-point transfer, the transfer speed is increased to 94.7Mbps, which is 516 seconds shorter than QQ. 84393 Small File Transfers: Raysync File transfer is automatic For team collaboration, Raysync supports automatically receive point-to-point files from your partners. Compared to the traditional P2P transfer method, Raysync saves your time spend on manually file reception. The auto file reception can be realized with one click to enable the “Allow to receive transfer files from partners” button. A data asset is strictly monitored The admin user can monitor every single task in the admin console. Enter Raysync admin console – Point-to-Point transfer, you could view the point-to-point transfer account, IP, task name, receiver ID, country, states, city, total file transmission quantity, and transmission speed. In the meantime, it supports viewing the details of the point-to-point transfer task being transmitted and stopping the operation, and supports one-click viewing and downloading for historical transfer tasks. All files and individuals traceable, each P2P task can be controlled by the admin. The comprehensive upgrade made by Raysync on P2P transfer overcomes the drawbacks of file and user management, enables point-to-point transfer to better meet the enterprise needs, and helps enterprises manage data more efficiently. Bank-level data security Based on the needs of customers in industries such as film and media, IT Internet, Raysync adopts AES-256+TLS encryption technology between client and server to guarantee end-to-end data security. Aiming at the port problem, Raysync only needs to expose one port, which can meet all users' access needs and greatly reduce the risk of firewall port exposure; Hash verification protection is carried out at the transfer message level, file block, and the whole file to ensure the integrity of the transfer content. The optimization made by Raysync on point-to-point transfer, which has outstanding performance in performance, reliability, and security. The upgraded management design meets the needs of modern enterprises. As a one-stop solution provider for large file transfer, Raysync can be used as a tool for enterprises to realize fast file cooperation, and can also be used as an enterprise data management platform to provide data transfer services for industries such as film and media, finance, IT Internet, etc.
Many companies have started international business, and transnational file transfers have become more frequent. With the development of business and the expansion of company scale, many companies have set up branches overseas. However, due to the influence of the transmission distance and network environment, the quality of internationally transferred files is often greatly compromised. Whether it is email transmission or FTP transmission, there may be unexpected interruptions in transmission, damage to transmission files, slow transmission speed, and excessive time-consuming, etc. problem. If an enterprise user's transcontinental transfer company's important data is damaged or even leaked, it will be a fatal blow to the enterprise. Raysync large file transfer actively responds to the national "open cooperation" strategy, focuses on the development of global cooperation, and helps the smooth development of multinational enterprises' business. Relying on the self-developed Proxy high-speed transmission protocol, raysync transmission has provided numerous companies with large file remote transmission solutions, brought a stable and efficient sharing and collaboration platform for many multinational companies, and has become a god help for the cross-regional development of corporate business. File long-distance transmission, high speed and stability Raysync transmission is based on UDP patented transmission software technology, which breaks through the limitations of traditional network transmission. Its emergence makes up for transmission shortcomings such as FTP, HTTP or CIFS, and maximizes the use of network bandwidth. The utilization rate is over 96% and the transmission speed is increased by 10- 100 times, efficiently solve the problem of network delay and packet loss. Even in long-distance, cross-border, and weak network environments, it can still provide reliable, safe, and stable accelerated transmission services. Fully guarantee corporate data security Raysync is based on the SSL encrypted transmission protocol, adopts the world's top financial-level AES-256 encryption technology, and has built-in CVE vulnerability scanning to add multiple defense walls to corporate documents, effectively resist external attacks, ensure the privacy of the transmission process, and ensure data integrity and security . Support Chinese and English language switching Raysync transmission supports Chinese and English language switching, helping companies get rid of language barriers in the process of cross-border communication, and allowing corporate files to reach the world. Simple operation, flexible and efficient business management Support SDK integration, rapid deployment to the company's existing system, the system uses the web-side operation mode, the operation is simple and easy to use, complete document management module, authority management settings, effectively improve the efficiency of multi-department collaboration. How to quickly transfer 100GB large files across borders? In today's era of high-speed development of the Internet, it is no longer a problem. raysync transmission is a professional data transmission solution for enterprises to maximize the value of data and help enterprises to efficiently transfer files!
Data transfer has played an important role for enterprises to conduct business with its customers, partners and suppliers while acting as its foundation in mining data value. However, the emergence of the Big Data era has spawned a massive amount of data, while various data types and interactive scenarios have become increasingly complex, the efficiency and security of data transfer is also facing its challenges. If enterprises desire to continue extract value and create opportunities, the foremost priority is to tackle data transfer. Challenges: ● While the amount of data has skyrocketed, the transfer efficiency is still poor; ● Data types are diverse and traditional transferring methods are difficult to guarantee its integrity; ● Network environment is complex while the cases of data loss and leakage are increasing; ● Cross-regional and long-distance teamwork has increased, but high latency and high packet loss rate have also become prominent. The key to solving the challenges above is to find a first-class data transfer engine. This would eminently support enterprises to build a high-speed, secure, and stable environment for data transfer, which brings an edge to lead in a data-driven development. The Great TCP Bottleneck Transfer protocol is the foundation beneath every data transfer, in which TCP is the most commonly used IP transport layer protocol. Compared to other protocols, TCP is able to provide a more reliable service for establishing connections between specific network systems and applications. Originally developed in the early 1970s when networks were still local and data files were small, TCP served as the basic protocol which enabled data to move efficiently and reliably within the local area network with very small bandwidth. To maintain this reliability, TCP ensures that the application data transmitted in a single TCP connection arrives at the receiver’s application in the same sequence as when it was sent. Therefore, TCP uses an algorithm to establish the connection between the sender and receiver, creating transfer requests in turn, and splitting the data into packets, which are then sent separately through the network without the need for acknowledgement until reaching its definition limit. . The sliding window protocol is used by TCP to define the data buffer. Figure 1 below is a simplified diagram that demonstrates how TCP sends out small packets over the network and how TCP windowing controls how much data can be transmitted without acknowledgement. As the packets are delayed, TCP will then slow down the transfer rate with a smaller window size, which further limits the number of unacknowledged packets allowed. TCP algorithm is proved to be effective when data transfer occurs over a short distance while the network is not congested. However, when the round trip time of packet transfer is inevitably increased by distance, both the performance and efficiency shall be affected. Especially under the scenarios of long-distance, transnational transfer, the transfer of large files and massive small files will expose the drawbacks of TCP protocol: ● Low transfer efficiency, end-to-end transfer requires sequence acknowledgement, the data processing is slow; ● Increase of data loss rate and latency when large files are transmitted; ● Extreme congestion control throttling which results in unnatural throughput loss; ● TCP cannot guarantee its reliability, its file check mechanism is imperfect. In essence, TCP cannot be defined as a reliable transfer in the true sense of the word. Especially under the pressure of data volume and distant transfer, TCP is unable to guarantee the efficiency of transfer and yet it may expose enterprises to data security threats. Raysync – A Brand New Transfer Protocol Raysync’s high-speed transfer protocol is a core transfer technology developed by Shenzhen Yunyu Technology Co., Ltd. based on the UDP transfer protocol. This breakthrough technology does not simply optimize or accelerate data transfer but it takes a leap forward in the transfer technology to completely eliminate the underlying bottleneck while overcoming the limitations of traditional network and hardware. Raysync is able to fully make use of network bandwidth thus provides an ultra-low latency, high speed and end-to-end output service. The transmission rate can be increased by nearly 100 times, achieving over 96% of bandwidth utilization rate while easily adhering to the security, controllability and stability requirements for TB-level large files and massive small files transfer. Transport Layer: A Black Tech that Overthrows the TCP Protocol The TCP transfer protocol does provide a reliable data transfer under ideal conditions, but with its fixed throughput bottleneck, a prominent and serious condition would occur due to high packet loss and latency caused by a long-distance network transfer. Raysync guarantees reliability in the application layer with an innovative method that eliminates drawbacks such as low efficiency in TCP, packet loss, processing errors and unstable transfer rate. To ensure 100% reliability, Raysync adopts the best mechanism that accurately identifies and passes on the actual packet loss condition on the transfer channel. Application Layer: Best Alternative to FTP The FTP transfer protocol has been used for more than 40 years, but it is also a fact that the efficiency of FTP file transfer has been far less than the growth rate of data in the face of today's complex file exchange requirements. FTP is even worse in the file management tasks that enterprises urgently need today. In order to transfer files while maintaining security through FTP, this requires complex scripts, continuous maintenance, and even other applications to assist. All of which may cause time and money losses to enterprises by varying degrees. Basing upon UDP’s high-speed transfer protocol, Raysync breaks through the bottleneck of large file transfer which satisfy enterprises’ needs by building an intelligent transfer platform that processes and integrates massive data at an unprecedented speed. Fast, Secure and Reliable Large File Transfer System With its high-speed transfer protocol, Raysync provides all-around support for enterprises in large file interactions and cross-platform cooperation, achieving standardization within and between enterprises. Raysync’s intelligent data compression and intermittent transfer technology can also effectively reduce the network load, providing breakpoint resume and data verification to ensure stable and reliable data transfer. The intelligent management system is able to meet the business requirements of enterprises such as data interaction, sync and backup. Raysync makes sure to quickly integrate itself into existing OA, ERP and other enterprise systems, thus effectively reducing R&D costs to achieve data file linkage between business systems and operating system platforms, avoiding data islands. While Raysync has been continuously improving its file transfer acceleration technology, it also embraces the objectives of solving enterprise file transfer management into its scope of service to a full extent, building a smart file transfer system: ● Data Synchronization Supports two-way file synchronization that maintains the consistency of data across multiple devices, ensuring no redundant fragmented files are produced and multi-point data sync are efficient. ● Point-to-point Transfer Adopts user ID to achieve point-to-point transfer, eliminating intermediate transfer for rapid file-sharing. ● Standard Bank-Level Encryption Technology With the AES-256+SSL+Random salt high-density encryption algorithm, even the developers are unable to recover the root password through the stored ciphertext, making sure the data security is worry-free. ● Audit Trails Uses transmission logs and operations logs to supervise user behavior, easily trace all operations and file content, effectively control improper usage behavior and help enterprises to achieve better file management. ● User-defined Management User-defined management perfectly plots out the organizational structure, supporting group management by defining regions, departments, and role-based permissions that set authority to standardize enterprise users' operation. ● Intelligence Nodes Management With intelligence nodes management equipped, it supports unified management of all node machines in both the internal and external network environment to monitor and collect all operation logs and data synchronously. ● Hybrid Cloud Storage Raysync supports more than 10 mainstream storage methods including hybrid storage effectively to assist enterprises to store, backup, migrate and synchronize their files in an orderly manner. Broad Experience in Servicing the Industry In order to aid enterprises to overcome challenges brought by Big Data, Raysync has been focusing on developing a secure and reliable large file transfer technology and solution with first-class performance for many years. Through continuous technological innovation and real-world applications, Raysync has served across many industries and sectors such as high-end manufacturing, scientific research, life sciences, film and television media, etc. Film & Media Industry Challenges: Most film and television productions are edited and created by people scattered among different firms and overseas institutions, in which a large amount of audio, video, images and other content has to be uploaded and downloaded. This mass amount of data flow has led to low efficiency of file interactions, and the delay of the production cycle may seriously affect the production efficiency. Solutions: ● Raysync provides the specific audio-visual content transfer solution for the film and media industry to accelerate the transfer of a massive amount of content through Raysync’s ultra-high-speed transfer protocol. ● Intelligently optimize the network bandwidth and effectively reduce the network latency and packet loss caused by transnational and ultra-long distance transfer. ● Build a one-click file sync environment to ensure that all stakeholders can receive the latest and complete media content, this would help the film and media industry to carry out their production work efficiently and smoothly. IT & Internet Industry Challenges: One of the daily challenges faced by the IT & Internet industry is that massive data needs to be backed up synchronously at multiple endpoints. However, due to the tremendous number of large files, the connectivity issues between the transmission service and single file storage server could lead to the inability to fully utilize network bandwidth, instability and data migration issues. Solutions: ● Raysync applies intelligent distributed transfer to improve the speed of transfer several times and optimize the usage of network bandwidth. ● The Raysync data migration system supports multiple computer clusters for parallel transfer with a maximum transfer efficiency that could reach 100 Gbps. ● Built-in file verification and encrypted transfer technology guarantee end-to-end security, integrity, and consistency of data. This ensures that the whole migration process can be completed in a short time with a 100% success rate and zero failure. Financial Industry Challenges: Most financial institutions expand and develop through their branches, but this often leads to fragmentation of data and application environment. And when "organizational performance" becomes the priority of business development, it is necessary for them to collect a vast number of operation logs and integrate the data to improve the efficiency of business development. Solutions: ● Raysync’s admin console allows financial enterprises to quickly collect operation logs, monitor transfer logs, manage user groups, configure file permissions, etc. to promote the rapid improvement of its organizational performance. ● In the meantime, the AES-256+TLS encryption algorithm also plays an important role in the whole process, providing top-level security for the financial industry. Medical & Health Industry Challenges: The problem of isolated data islands has long plagued the health industry, potentially hindering the data analysis to improve the overall quality of medical and health services. In the meantime, the issues with transfer and data storage that is directly related to customers’ sensitive data and massive data generated from genetic research have also impeded the development of the medical and health industry. Solutions: ● Raysync’s large file transfer solution helps to integrate the data across different islands and systems, providing a unified data set for medical and health providers, researchers, and institutions. This is extremely convenient for the stakeholders to collect and analyze data to accelerate the leveraging of Big Data. ● In order to tackle the issues of transferring sensitive data, Raysync adopts standard bank-level encryption and an effective file management system to provide a secure environment for users retrieving the data and the data itself. With the evolution of information technology continuing at a rapid pace, enterprise data transfer is no longer a simple matter. Especially in such complex market conditions, enterprises should not only consider whether the transfer technology is powerful enough but should also take high-quality service guarantees into consideration when choosing the right solution. About Raysync Solution As a one-stop solution provider, Raysync has independently developed its core transfer technology with its professional technical teams to offer high-performance, secure, and reliable large file transfer and file management services for major enterprises.
Company: Studio 51 Industry: Motion Pictures & Film Product: Raysync SMB Profile: As a visual effects production studio founded in 2013, Studio 51 is dedicated to film, entertainment and advertising industries. Collaborating with the local and global network of experienced talented artists, Studio 51 can provide a broad range of creative solutions. They offer professional services including concept design, pre-production, shoot supervision, and post-production. Challenges: The challenge Studio 51 faced is to exchange data around the world. Because of the inherent problems associated with transferring large files abroad via traditional methods, such as latency and packet loss, the transfer time was unacceptably slow, resulting in avoidable downtime and overall workflow inefficiency. Solutions: To overcome the challenges, Studio 51 deployed Raysync SMB. The Raysync admin console is deployed in Hong Kong, then the fast and secure data exchanging is guaranteed between Studio 51’s other offices in Germany, Sweden, and India through Raysync high-speed transfer protocol. Raysync SMB provides Studio 51 with fast file transfer speeds and maximizes their bandwidth and guarantees that all of the content that distribute or receive arrives on time. Besides, Raysync helps Studio 51 to create multiple user groups and give them different access permission, which simplified the work procedure, made the management easier, and greatly improved the work efficiency. Results: The Raysync solution enabled The Studio 51 team to edit and transfer all of their content from across the globe at blazing speeds. With the enhanced methods from Raysync SMB, the Studio 51 was able to achieve speeds hundreds of times faster than traditional methods, ensuring the delivery of large files from anywhere in the world, while providing security, reliability. Workflow: Raysync & Studio 51
There is nothing more exciting than owning a brand new computer. Usually, a new computer means getting many new features, more functions, better graphics, and more storage space. However, if you need to transfer files from the old computer to the new computer, it may reduce some excitement. Want to know how to transfer files from one computer to another? We will help you determine the best method. Several factors affect the process, such as how many files you need to transfer, the size of the files, and the operating systems of the two computers. Transferring files is not an overly complicated process, but it may take several hours to complete, depending on the amount of data you need to transfer. There are several ways to transfer old files from one computer to another. Here are the five most common methods you can try. 1. Cloud storage or web data transfer You can use a variety of cloud storage providers to send and download files. The storage provider you use depends on your personal preference. Why are cloud drives so useful in file transfer? Since these cloud-based services allow you to download and transfer files of almost unlimited size, storage space allows. If you don’t have cloud storage or would rather not use it, you can also use network software to upload larger files. The free file transfer platform can upload files up to 5GB in one go. Hate the registration service? Don’t worry, you don’t even need to register for an account or download software. This is a simplified answer to file sharing needs. 2. SSD and HDD drives via SATA cables Trying to transfer data from the old laptop to the new laptop? If your old computer is not working properly, you may think that you are out of choice in terms of recovering data, but thankfully, you are wrong. The two solid-state drives and the hard drive use SATA cables to connect them to the main circuit board, also called the motherboard. You can connect the old hard drive to the SATA SSD or eSATA port in the new computer. After installing the old drive, the operating system in the new PC will read the drive and start transferring data through it. One problem you may encounter with this method is to find an additional SATA port. To solve this problem, you may need to use a SATA USB converter. Once all the files have been removed from the old hard drive, you can choose to use it as an external storage device. If you want to back up any important files, this is a good tool. 3. Basic cable transfer In addition to relying on cloud-based services or external hard drives, you can also use various cables to transfer data. This method is usually faster than using a drive because the files are copied and pasted onto the PC one by one. After connecting the device through the USB port, the transfer software included with the cable will guide you to complete the migration of files and settings. If both PCs have USB 3.0 ports, you can transfer data faster, so keep this in mind when starting the file migration process. If you need any cables or accessories to start the data transfer, HP provides a variety of cables to give you the best experience. 4. Transfer data via WiFi or LAN If both computers are on the same network and within range, you can set up a local area network so that one PC can be used to search the hard drive of the other PC to select the files to be transferred. Windows 10 and other operating systems have built-in settings that allow users to set up a home network so that devices on the same network can recognize each other. What does this mean for users? Well, every time you transfer files from PC to PC, you don't need to go through the process of establishing a new connection. As long as both devices are powered on, the connection is always accessible. 5. Use an external storage device or flash drive In addition to sending files via e-mail, this is probably the most popular PC-to-PC file transfer method. The file has a fairly strict file size limit, up to about 25MB. For this data sharing method, you only need to complete a few steps: Insert the USB flash drive into the old computer; After the flash drive is recognized, copy the required files and applications to the drive; Use appropriate steps to unplug the flash drive ; Insert the flash drive into the new computer and transfer data; This copy and paste method is user-friendly but is limited by the storage capacity of the external device. If both computers that you want to transfer data between have USB 3.0 ports, you may need to purchase a USB 3.0 flash drive, which has very fast data transfer speeds. The more data you have to migrate to the new device, the more important the speed of the transfer rate. If you plan to move a large number of files, even a small difference in speed can cause a difference in hours. Since flash drives generally have more limited storage availability, many users may want to consider upgrading to an external hard drive to move files. The Raysync large file transfer solution is committed to meeting the needs of large data transfer within the enterprise or with external partners, providing efficient and controllable accelerated transfer of large files, ultra-long distance, transnational network data transfer, secure file asset distribution, file management and Organize permissions management, support local deployment and cloud services, and provide enterprises with safe, stable, efficient and convenient large file interactive technical support and services.
At work, I often encounter the situation of sending large files. File transfer is always restricted, and file transfer always has problems. How to send large files for free? The following teaches you how to transfer large files, for reference only. 1. Use file compression If you want to send large files for free, using file compression can help you achieve that goal, or even make it faster. More importantly, because this method can shrink the file you want to send, and the recipient can extract the file without downloading any software because most operating systems are competent, it can also help you store it. The process of using file compression is very simple: just put the files in a single folder, and then compress all the files at once. 2. Use a USB flash drive Another great way to send large files for free is to use a USB flash drive. The size of the flash drive should depend on how much data you want to store on it. You only need to plug it into any USB port of your PC and upload large files to it. It is especially useful to send large files between colleagues and colleagues you can see. Another benefit of a USB flash drive is that it can easily reduce the burden on the computer, but if the drive is infected by a virus, the files may be hidden or damaged. 3. Use VPN In addition to helping you protect your data and provide you with more privacy, a virtual private network can also send large files for free. Contrary to many people's beliefs, today's Internet service providers often use broadband traffic management to regulate upload bandwidth . By using a VPN, you can avoid these restrictions because your ISP cannot determine the type of file you are sending. You can use a large number of free VPNs to transfer large files. A common problem with this method is that the recipient may not receive all files in their entirety. 4. Cloud storage Using cloud storage space is one of the easiest and most popular ways to send large files for free. It works by allowing you to upload files to the cloud and then share the files you want to send with others. But there is a small problem: cloud storage services are not completely free. 5. Raysync The Raysync large file transfer solution is committed to meeting the needs of large data transfer within the enterprise or with external partners, providing efficient and controllable accelerated transfer of large files, ultra-long distance, transnational network data transfer, secure file asset distribution, file management, and Organize authority management, support local deployment and cloud services, and provide enterprises with secure, stable, efficient, and convenient large file interactive technical support and services.
Company: Outpost Facilities Industry: Broadcast & Media Product: Raysync Enterprise Profile: Founded in 1999, Outpost is the largest independent Picture Post production company based at Pinewood Studios in the UK. They specialize in managing Film and Television post-production projects from shoot to delivery. Challenges: One critical challenge faced by the Outpost TEAM was slow data transfer speeds, especially when moving large digital content. Outpost needed to distribute finished video content to their users who are scattered mostly in Europe and USA. The size of files is usually between 100 and 1000GB. The file transfers were lengthy, taking many hours, and sometimes days, to successfully complete. Outpost realized that it was necessary to find a file transfer solution to handle their complex workflows. Solution: With the assistance of Raysync Fast Transfer server, Outpost’s worldwide clients transfer their video content to Raysync admin console via the Raysync user console. Outpost distributes the video content to their clients using the accelerated Raysync file transfer protocol. From installation to configuration, the process was quick, simple, and had no downtime. Outpost’s existing FTP server was connected to the Raysync service. All the file transfers are now at full internet connection speed – transferring securely from end to end. Results: - Increased transfer speeds - Enhanced user experience - Guaranteed delivery for every transfer - Data is always secure during every transfer - Transfers are immune to latency and packet loss Workflow: Raysync & Outpost Facilities
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