Seed backup is a self-service operation. End users can perform it all by themselves without the involvement of their service provider. The source machine on which the seed folder is created can function on Windows, macOS or Linux view list of supported versions. The removable storage device must operate on a standard file system.
A non-standard file system such as HFS can make seeding data unreadable you will get a warning if this is the case. The following file systems are recommended for removable drives:. The host machine from which you transfer the seeding data to the cloud must run on Windows. It is possible to upload multiple devices' seed backups at the same time if the host machine's disk and internet can handle the increased load.
If you plan to use the LocalSpeedVault with the device, consider enabling the feature prior to starting your initial seed. This will help prevent data seeded to the cloud from later having to be downloaded and synchronized to the LocalSpeedVault. Care must be taken when transferring the seeding folder to the cloud see step 3 of the instructions. Some users specify a path to the LocalSpeedVault directory instead, which results in errors. If in doubt, you can differentiate the LocalSpeedVault from the seeding directory by its name. To avoid confusion, configure unique paths such as these:.
Connect a temporary storage medium to the computer that has data for backup. Then identify and copy the full path to the root of the storage medium or a directory on it. On Windows , copy the path from Windows Explorer. This is the seeding folder. It has the same name as the backup device on which seeding has been done for example "sony-vaio-hdqtrs". When seeding is enabled on the device, the Backup manager cancels any backup operations currently in-progress and prevents additional backup or restore jobs from running including scheduled backups until the device is switched to post-seeding mode.
A good thing is that while the data is on its way, the backup client stays functional.
You can continue backing up changed data to the cloud and to the LocalSpeedVault. The assessment of the productivity of dry straw obtained by intercropping maize with the forage was essential in order to interpret the results of operational performance on these straws, since the total dry mass of straw is the most important variable to be analyzed, because represents the initial condition for soybean planting. According to Table 1 , to the variable dry mass of maize straw, there was no significant difference in the evaluated treatments, i.
Most forage production of MBE and MBC occurs due to less competition provided by the maize when compared to other treatments, allowing fast initial development of forage and higher photosynthetic efficiency, becoming the fastest growing end, i. Based on the figures, we can say that for the MBL, the U. For the unfolding of U.
Similar results occurred for U. Overall, we conclude that seeking greater amount of straw on the soil surface, the MBC is the most recommended treatment, but the control had the lowest values. With these results it is possible to verify the initial condition for soybean planting, serving as explanatory variables in the behavior of operating and energy parameters.
For operating parameters, the results showed that the operation of planting soybeans on maize straws and forage, gave significant effect to the front wheels slippage, average strength of traction and average power bar Table 3. These results can be explained by the large amount of straw produced by MBC compared to single maize, the behavior of slippage of FW is related to the amount of straw produced in the system Table 1 , where areas with higher amount of dry mass promoted lower adherence of front wheels. This configuration associated with the type of tire can change the advance of the front wheels, supporting the increase of slippage.
The rear wheel slippage showed no significant difference in any of the evaluated treatments, which can be ascribed to the movement of the straw by the frontal wheels, removing the straw from the central area and allowing more tire contact with the ground, improving adherence and the coefficient traction, and the dynamic weight distribution described previously.
Unasylva - Vol. 3, No. 3 - Airplane seeding: A new venture in reforestation
These results suggest that in areas with higher amounts of straw Table 2 , the energy demand of the seeder-tractor is greater. CONTE et al. These results show the importance of the straw on the surface, because regardless of the purpose of crop-livestock integration, whether for production of straw to maintain the annual supply required by the NTS or animal pasture, even requiring greater energy demand of the tractor- seeder, the benefits of straw on the surface can provide the direct increase in grain yield of crops and even keep the operational cost.
The increase in the amount of dry mass on the soil provided by the Urochloas increases the front wheel slippages, strength and average power at the drawbar. The Urochloa ruzizienses provided greater amount of straw on the soil surface. The requirement for greater strength and power in the drawbar, as well as the lower adherence of the wheels in the soil, according to the increasing amount straw, may not interfere with the smallest capacity or greater operational cost. American Society of Agricultural Engineers.
Terminology for soil-engaging components for conservation tillage planters, drilss and seedrs. ASAE Standards : standards engineering practices data. Joseph, ASAE D ASAE Standards Cultivo consorciado de milho para silagem com Brachiaria brizantha no sistema de plantio convencional. This means that there should be motivation to seed. The opposite of a seed is a leech , a peer that downloads more than they upload. Seeding is a practice within peer-to-peer file sharing, a content distribution model that connects computers with the use of a peer-to-peer P2P software program in order to share desired content.
An example of such a peer-to-peer software program is BitTorrent. Peer-to-peer file sharing is different from the client-server model , where content is directly distributed from its server to a client.
To make peer-to-peer file sharing function effectively, content is divided into parts of kilobyte KB. This segmented downloading makes the parts that peers miss be allocated by seeds.
- Content Seeding.
- Database: Seeding.
- I Poeti Contemporanei 154 (Italian Edition).
- Seed backup in Backup Manager.
It also makes downloads go faster, as content can be exchanged between peers. All peers including seeds sharing the same content are called a swarm. Data shared via peer-to-peer file sharing contains shared file content, computing cycles and disk storage, among other resources. In peer-to-peer file sharing, the strength of a swarm depends on user behaviour, as peers ideally upload more than they download.
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This is done by seeding, and there are different motivations to do this. There are two popular motivations to seed, of which one is the reputation-based incentive mechanism and the other is the tit for tat mechanism. As the name reveals, the former is based on the reputation of a peer, meaning that those peers who have a good reputation will get a better treatment from the uploader.