File transfer is the core of business operations. The company regularly exchanges data internally with customers, suppliers, and partners every day. Whether they need to transfer batch transactions to an outsourced payroll provider or need to send digital video for marketing activities, they must be able to transfer data safely and efficiently. Organizations continue to rely on file transfers to share digital information. More than 50% of all system integration is done through file transfer. "From banking and financial services to defense and manufacturing, the transfer of critical business data is crucial," Todd Margo said in his IBM-managed file transfer blog. "For the business to run smoothly, it is necessary to move, copy, synchronize, and share the ever-emerging and developing digital data forms packaged in the form of files." He went on to describe some of the factors that affect today's file transfer requirements: Data volume: Compared with the past, the workload requirements for file transfer are high-frequency batch processing and larger and more diverse files. Innovative applications for streaming are also needed. Big data and the Internet of Things: Companies are deploying file transfer technology to enable batch transaction file exchange in areas such as the Internet of Things and big data analysis. This can greatly increase the data transmission speed. Besides, the amount of data is increasing to support more detailed analysis. The two punches of speed and file volume pose special challenges to file transfer technology. Security: Network security issues continue to intensify, leading to the adoption of better security technologies. When possible, the file transfer system should compensate for the security overhead by supporting hardware accelerators, new security processing software, and improved file transfer throughput. According to the analyst report: "Non-compliance with data security and privacy regulations and lack of end-to-end visibility and monitoring are still the main issues facing the functionality of existing file transfer solutions." The report further added: Cloud-enabled, via API Simplified integration, and improvement of user experience are the subject of development. SFTP FTP and Secure FTP are the most widely used file transfer methods. Part of the appeal is that they are easy to use, usually free or cheap. The transfer is usually done through an FTP website that most people can access. If the organization occasionally needs to send non-sensitive documents, this technique works well, but if it is widely used, it may put them at risk. Recent studies have shown that more than 400 million files from FTP servers are available online. When exposing files, FTP does not log security violations or verify user identity-this is a basic function needed to help detect and prevent vulnerabilities or cyber threats. The technology also sends files on a first-come, first-served basis. Therefore, organizations cannot determine the priority of critical transmissions or quickly respond to business needs. To overcome the hidden costs and risks of FTP, more and more companies choose secure and scalable file transfer software.
A safe transmission tool generally needs the following safety design: 01. Web security design - User-side Web Portal and management-side Web Portal support access IP address isolation and port isolation; - The administrator can disable the user plane Web Portal or the management plane web portal as required. - Support HTTP and HTTPS, the administrator can disable HTTP and only provide Https service; - For the logged-in Web page, the session valid range is only valid for the currently accessed page, completely eliminating CSRF cross-site attack; Before each version is released, Huawei Cloud Online Professional Web Vulnerability Scanning Service is used to scan vulnerabilities and repair the latest released vulnerabilities in time; - Https TLS only opens the encryption algorithm suite that is recognized as safe in the industry. 02. Account & Password Protection Security Design - Login authentication has a built-in anti-violence cracking mechanism, and the user enters the wrong password five times in a row within 3 minutes, and the account will be automatically locked. - Session identification in login is generated by using the interface of OpenSSL high-strength random function RAND_bytes to prevent random information from being hit by the simulator. 03. Transmission security design - In the transmission process, Raysync is protected by Hash verification at the transmission message level, file block, and the whole file to ensure the integrity of the transmission content. - TLS 1.3 is used for end-to-end encryption between the Raysync client and the Raysync server to prevent man-in-the-middle attacks in the network. - Raysync only needs to expose one port to the outside, which can meet all users' access and greatly reduce the risk of firewall port exposure. Whether transmitting large files, scheduling many small files in batches, or sending individual files as needed, it is very important to choose safe file transmission software.
Our industry is often described in terms like "accelerated" or "high-performance". Sounds great: everyone wants what they are waiting for happens faster. Customers will naturally come to us for faster data transfer speed. But when it comes to moving data across networks, there are many moving parts. File transfer software is also one of them. No software can move data faster than basic hardware. Therefore, if you think your data should run faster, the first thing to look at is the telecom provider. If you have an upstream speed of 100 Mbps, and the system at the other end has at least a downstream speed of 100 Mbps, and the speed reaches 90 Mbps, then you don't need acceleration software. The utilization rate reaches 90% , so the only way to increase the speed is to increase the line speed. Remember, upgrading only one end does not help: the data path is only as fast as its slowest link. If you don’t seem to be filling the data pipe, make sure the width of the pipe is the same as you think. More than half of the people who contacted us did not have accurate information about their internet connection speed. The differences between uplink and downlink speeds, corporate bureaucracy, bonded links, and outdated telecommunications contracts often lead to expectations exceeding reality. At least at some point, transferring data to a nearby server or using a public test site allows you to quickly estimate the capabilities of the network. Also, remember that you may not be the only user of these links: bandwidth is a shared resource, and various devices may require you not to exceed your fair share. Even if the hardware is not fully utilized, there are still many software bottlenecks that will limit your speed. Firewalls and antivirus software may decide that your data flow is not worth it quickly. It can be particularly frustrating to keep track of these restrictions when they are based on obscure "heuristic" rules or long-forgotten configurations made by people who have not worked in your company for years. The data transfer acceleration software solves a very specific problem: the insufficient use of hardware due to the inefficient transfer protocol. In other words, TCP often fails to meet the requirements. Data transfer optimization aims to make utilization as close to 100% as possible. So before you ask if this will make the file transfer faster, ask yourself where the 100% benchmark is. If you want to use file transfer acceleration software, you can try Raysync large file transfer. The transfer speed is hundreds of times faster than FTP and HTTP. It maximizes the bandwidth without affecting other network traffic. Cross-regional and international big data replication and migration Or archive, at least 100TB of data can be transferred every day.
When using FTP to transfer files, there is no need to perform complex conversions on files, so FTP is much faster than any other method to exchange data. The combination of Internet and FTP means that every networked computer has a huge backup file library, which is an advantage that a single computer cannot match. However, this also causes a shortcoming of FTP, that is, users cannot understand the contents of the file before the file is "downloaded" to the local. The so-called download is to transfer software, text, pictures, images, and sound information on the remote host to the local hard disk. File transfer service is a real-time online service. When performing file transfer services, you must first log in to the other party's computer. After logging in, you can only perform file query and file transfer-related operations. Use FTP to transfer many types of files, such as text files, image files, sound files, data compression files, etc. When evaluating secure file transfer applications, companies should pay attention to the following important issues: security, architecture, features, and ease of use, management, reporting, licensing agreements, and total cost of ownership. Since data leaving the boundaries of the company may contain sensitive or confidential information, locking down this data and ensuring that only approved recipients can receive the information should be a key criterion. Security evaluation involves examining the product from multiple aspects, including the overall architecture, data storage and protection, user authentication, permissions and roles, administrator-definable policies, and even how an application gets the underlying platform and current status. There is security configuration support. Besides,it is also necessary to test whether it can defend against common vulnerabilities, such as SQL injection and cross-site scripting attacks are very important for any public-facing application. The overall architecture and design method of the solution can reflect the manufacturer's plans and ideas in the product to a large extent. Good product developers build products for today’s needs, but they must anticipate tomorrow’s needs. When reviewing any secure file transfer architecture, companies should pay attention to how vendors deal with encryption, flexibility, upgradeability, support for large files, network outages, and policies. In addition, it is also important to consider issues such as integration and expansion of existing applications, customizability, performance, user and system management, product platform support, and programming interfaces. In addition, it is necessary to consider whether the application design is logical, whether the components can be well matched, and whether the secure file transfer application adapts to the existing infrastructure. A well-designed user interface is essential to the success and effective use of any technology. The more friendly the interface of a system, the more likely it is to be adopted. Important elements of the secure transfer application interface include whether the screen is tidy, whether the control is intuitive, whether the text is clearly expressed, and whether the appearance and feel are generally consistent. These elements directly affect the adoption of the transfer scheme, and the easiest to use tool will most likely be accepted by the end-user. Two important aspects are involved when managing a secure file transfer scheme: user management and system configuration. Basic user management rules include: minimizing copies of information , using existing identity and access management databases, and making automated systems run as much as possible without continuous IT intervention. Flexible system configuration and settings can enable companies to more closely match and support existing strategies and processes. After deploying a secure file transfer program, the report becomes an important tool for understanding the utilization of the program and audit support. Compliance requirements may require the generation of reports to meet legal regulations or to meet internal usage guidelines and company supervision. The ability to monitor user activity and in-depth analysis of real activity can help identify or correct non-compliant activities and processes, and meet corporate file sharing restrictions. License agreement and total cost of ownership Companies implementing secure file transfer tools can enable users to send sensitive files and data through secure channels in new ways. Although this function may meet the needs of some individuals or individual departments at the beginning, the scale of its implementation tends to increase. Firewall rules: strictly limit the scope of the file transfer Restricting the scope of file transfer channels is the basic rule used by firewalls, but once you have designated one or several systems as your sFTP hub, make sure of the following issues: Only the sFTP traffic system permitted by the rules can pass through the firewall; only the remote approved system can be used as the source or destination of sFTP packets; SFTP is the only encrypted traffic that passes through the firewall of these systems. Although SFTP traffic is encrypted, it is an opaque management tool, so you need to make sure that it is the only opaque traffic that flows to and from these systems. Most organizations have no need to communicate with external entities or do a list of rapid growth or system changes for the secure transfer of bulk files. So if you really need frequent or rapid changes, you may need to use some security coordination tools to adjust the necessary rules to the source or destination. Use host tools Considering the rest of your environment, you need to carefully consider host-based mitigation methods. Security and system management vendors have changed in recent years, introducing high-speed analysis into their host-based system monitoring tools. In particular, some have been found to be used both in normal behavior patterns, such as operating system service calls , as well as abnormal situations on the system that have the least impact on performance. Running host-based abnormal behavior detection can reduce the movement of sensitive data into unauthorized channels. Don’t pay attention to content, pay attention to network behavior In addition to the host, network behavior analysis can also find changes in data streams, even the content of encrypted data streams that some tools cannot see. Since they can see the number, destination, and duration of data flows out of the system, these tools can help monitor data leakage in the process. It is difficult to effectively use this system, especially when identifying the "normal" early stages of traffic; such as intrusion detection systems, data leakage prevention systems, and network behavior analysis tools are all prone to "false positives", which reminds us to judge which Is abnormal behavior. Security personnel needs to spend extra time to learn these systems or use some kind of professional service to deal with this time-consuming work. The security team also needs to determine and follow the security process, continuously improve the early warning and response rules based on the alert assessment, and gradually reduce the number of false clicks. Be your own middleman The most extreme way to prevent leaks is to open all encrypted traffic that flows through the relevant part of the network of equipment capacity capable of performing these middleman functions. The encrypted traffic in these devices faces internally and ends at the system, while the channel faces externally and ends at the other end of the data flow. The channel will encrypt and decrypt it. It can then use deep packet inspection tools to analyze the content sensitivity and mark it as suspicious, and then completely block or allow it to pass. If allowed, the traffic will be re-encrypted and sent to the destination. This is a very computationally intensive task and very expensive. However, by checking all incoming and outgoing encrypted traffic, the risk of data being hidden in the encrypted data stream can be significantly reduced. This can introduce their own reasonable risks, so the scope of encrypted data stream capture needs to be carefully defined and discussed with enterprise risk managers. If this range needs to be extended to cover user endpoint devices and non-sFTP encrypted streams, then users need to know that their encrypted traffic may be exposed to IT personnel. Raysync large file transfer system, one-stop to improve the efficiency of global enterprise data transfer. Unaffected by traditional file transfer methods , minimize the transfer delay and packet loss rate of large files and big data, make full use of network bandwidth resources, and realize various business systems and various operating system platforms Data file collaboration to solve the problem of large file transfer and large data islands.
Raysync has superb file transfer capabilities and has served 20,000+ companies. The areas involved include government agencies, advertising media, the automobile industry, film and television production, etc. Many companies use Raysync for file transfer every day. Maybe you didn’t use Raysync directly, but maybe a movie that is currently being screened uses Raysync for accelerated transfer of video footage; maybe a medical institution is using Raysync to manage the past cases of patients...maybe each of us or More or less established contact with Raysync. The current network transfer adopts the TCP transfer protocol, which is very stable and reliable. During the transfer, the integrity of the file is the primary consideration of the TCP transfer protocol. Therefore, when the delay and packet loss occurs at the same time, it will choose to reduce Speed ensures quality. With the expansion of enterprises, the demand for transnational file transfer has soared. The longer the transfer distance, the greater the probability of delay and packet loss. Therefore, when TCP is used to transmit files transnationally, the transfer speed will decrease. In response to the bottleneck of the slow transfer speed of the TCP transfer protocol, Raysync developed its independent transfer protocol. It can also increase the packet transfer rate in the case of high delay and high packet loss. It can also control network congestion, improve transfer efficiency, and ensure that data is stable and reliable... Raysync provides enterprises with one-stop big data transfer solutions, including GB/TB/PB level large file transmission, transnational file transmission, massive small file transmission, etc. Besides, Raysync also has these features: Intelligent two-way synchronization of files; Multi-client concurrent transfer; P2P accelerated file transfer; Database disaster recovery backup; Object storage solutions; One-to-many, many-to-many heterogeneous data transfer. Since its inception, Raysync has undergone many iterations and improvements. With its excellent file transfer performance, it has become an indispensable helper for enterprises' digital transformation!
Imagine: after a busy day in the office, you finally come home to calm down and fall asleep in a comfortable bedroom. Just enjoying a quiet time, a buzz came and you didn't want to move. But in the end, you reluctantly opened your eyes from the warm bed and picked up the noisy work phone-there is urgent work! Urgent files to be transmitted. This situation is not only a terrible nightmare but also a reality for many people. The lack of suitable office tools has greatly affected the productivity and opportunity of enterprises, among which file transfer software is an important office tool, especially in the era of big data. From life information exchange to value mining behind commercial big data, more and more industries and activities need to involve large file transmission. In this paper, we will discuss several key points of solving the problem of file transmission by combining Raysync with UDP, so that we can better understand modern file transmission products. Based on the transmission performance of UDP, Raysync breaks through the defects of traditional FTP and HTTP transmission, the transmission rate is increased by 100X, and the bandwidth utilization rate is over 96%. Multi-dimensional transmission mode meets the requirements of extremely fast transmission of TB-level large files and massive small files. Intelligently accelerate the transmission in the whole process, avoid packet loss caused by network latency, greatly accelerate the efficiency of file outgoing, effectively compress the length of file outgoing, and provide a perfect data transmission carrier. Long-distance transmission is easy File transfer may not be so urgent, and stable and complete file transfer is the most important thing at the moment. In order to prevent you from worrying about whether your files will arrive safely at overseas partners, it is necessary to find a high-speed, safe, and reliable file transfer software. Yes, there are free UDP file transfer tools, but the GB transfer limit of most tools is very low. If you have any questions about using UDP protocol, Raysync is happy to provide you with the preventive measures we have taken. It is easy to transmit large files in a long-distance and weak network environment. Stable and reliable file transmission Over the years, data attacks such as data leakage and hacker attacks have emerged one after another. It is very common for traditional file transmission methods to lose data packets during transmission, but this situation means that your production, research, business, and other aspects may face corresponding delays, and you may face high compensation in severe cases. The importance of file transfer is often underestimated, so there is usually no proper budget. Don't be afraid, understand that you have many choices, including flexible pricing, which will prevent you from sacrificing data. With the help of our UDP technology, the Raysync will minimize the packet loss rate, make the files stably transmitted, greatly reduce the time cost of enterprises, and effectively guarantee the benefits of enterprises. Multi-task efficient processing Adhering to the free UDP file transmission method may limit the customization options. You are limited to one user profile, and usually only one transmission task can be performed at a time. Therefore, you must prioritize the equally important items for transmission. But most of the time, this sort itself is unreasonable. What we need is software that can respond quickly to support the rapid development of business. Raysync is based on multi-industry service experience, and it is well known that enterprises should know the number of configuration files supported by the software and the number of processing tasks when choosing file transmission software. In multi-task processing, Raysync has a number of multi-user accounts and supports user-defined permissions and transmission settings. Raysync has helped Huawei, OPPO, VIVO, and many other famous enterprises solve the difficulties in large file transfer. If you wonder to know more about large file transfer, you're welcome to give Raysync a try.
In order to help the users of automobile manufacturing enterprises quickly respond to the challenges of information management and internet plus transformation, Raysync has developed a set of simple large file transmission solutions for related automobile enterprises. This solution focuses on three major issues: internal development and construction, research and development between enterprises and different places, and accelerated data flow between enterprises and suppliers, aiming at helping major automobile enterprises establish a comprehensive information platform for full-stream data transmission and sharing. Industry pain points: 1. There are many departments of automobile enterprises, and the efficiency of internal cooperation is low; 2. The automobile industry chain is long and "heavy", and the upstream and downstream data interaction efficiency is low; 3. The transmission requirements are complex, and the traditional data transmission methods are difficult to cope with; 4. There are many internal business systems in automobile enterprises, and the data flow is not smooth. Solutions: - The self-developed high-speed transmission engine is not affected by latency and packet loss under any network conditions, which greatly improves the output efficiency of R&D data, design drawings, and marketing materials of automobile enterprises. - Provide perfect development tools and integration methods, and integrate them into various business systems such as SCM, ERP, CRM, OA, etc., so as to realize the integrated, systematic, and automatic management and application of file resources. - Powerful functions such as multiple verifications, file filtering, breakpoint resume, error retransmission, and automatic synchronization ensure 100% correct transmission and avoid errors in the transmission of R&D data, design drawings, and marketing materials of car companies. - Through the AES-256 encryption algorithm, the whole process of SSL encryption ensures that the R&D data, design drawings, marketing materials, and other contents will not be leaked during the uploading and downloading process. The above file transmission solutions in the automotive industry come from Raysync Industry Solutions. "Raysync Industry Solution" is a summary of the service experience of Raysync to 2W+ enterprises, covering the mature file transmission solutions of ten major industries such as film and television media, manufacturing, government agencies, IT Internet, automobile, and finance. Go to the official website for Raysync and check the complete Raysync Industry Solution immediately. Raysync file transmission solution is dedicated to meet the data transmission requirements of internal or external partners of enterprises, providing efficient and controllable accelerated transmission of large files, ultra-long distance and transnational network data transmission, safe outgoing of file assets, file management, and organization authority management, supporting local deployment and cloud services, and providing enterprises with safe, stable, efficient and convenient technical support and services for large file interaction.
Of course, you can use a cable to plug Android into your PC and move files the old-fashioned way, but doing so is time-consuming and difficult to navigate through the various menus. Instead, try wireless file transfer. If you have trouble managing all the documents, photos, and music, then transferring files between PC and Android is a vital task. Although Apple users can use AirDrop to move files wirelessly between iOS and macOS, Android users need to innovate on this basis. This doesn't mean it's impossible-in fact since it's easy to move files without relying on running a specific operating system, you can transfer documents on Windows and Mac. If you are looking for the best way to move files wirelessly, here are the details of the best way. Transfer files between PC and Android: Wi-Fi network The best way to transfer files between PC and Android is to send files over a shared wireless network. There are many applications you can use, but our favorite is Filedrop. Filedrop is fast, reliable, and easy to set up. With apps for Mac and Windows, it doesn't matter which operating system you use on your computer ready to install. The setting method is as follows. You need to install the application on your mobile device first, and then download the supporting software for your computer; after a brief installation, start the program on both devices, and then click the scan button. The PC program will ask you which device you want to connect to. Select the device type and it will prompt you to enter the device code. This code can be found by clicking the options icon in the device application. Enter the password and the computer will pair with your phone or tablet. Dragging and dropping files between the two is easy-just drag and drop the files into the program window on your PC. If you are transferring from Android to Windows, please click on the PC icon in the application and select the file browser option to navigate to the selected document, or the gallery option to quickly select multiple photos. Accept the transfer on the target device and your transfer will start to load. The notification will be displayed in the tray section at the bottom, where you can quickly select and open files.
File transfer servicesManaged File TransferFast File Transferpoint to point transferData ManagementaesFile sharingftpssftpmftshared fileSend Large Filesfile transfer protocolSecure file transfersmall file transferfile syncsynchronous transmissiondata syncfile transfervideo transmissionlong distance transmissionftpfile transfercross-border data transmissionFile transfer softwaretransfer filesmedia industrytransmission systemTLStransfer softwarenetwork diskteletransmissiontransmit dataTransnational transmissionCross border file transferFile transfer solutionraysync cloudLarge file transfer solutionraysyncraysync SoftwareLarge file transferFile management systemLarge file transferfile transferraysync cloudraysync transmissiondata transmissionLDAPADHTTPtcpHigh speed transmissionRemote large file transferTransnational file transferAccelerated transmissionFile share transferfile dataTransfer large filesCross border transmissionFile synchronization softwareFile sharingData transmission softwareLarge file transfer softwareEnterprise file transfer softwareHigh speed data transmissionFile synchronous transferFTP transmissionTransnational transmissionHigh AvailabilityTransmission encryptionHigh speed transmission protocolasperaHigh speed transmissionBreakpoint renewalsocks5CachenetworkSecure transmissionCloud storagesaasEnterprise Network DiskOperational toolscloud computingFile management Foreign tradeData exchangeTelecommutingHigh-speed transmissionSD-WANHigh-speed file transferFile synchronizationOversized file transferTransfer solutionTransfer tool