There is no reason this video needs to be 23 minutes long. Maybe try a 4-6 min MAX length video covering the key bullet points and functions of the product instead of rambling on for almost a half hour. Awesome videos, we all really appreciate the knowledge.
I understand the focus is on views but this is an extremely valuable and underrated series that I hope to hear from you. Been a year and seems like this is all there is to SNV4310 in ALL OF TH-cam. All the best!
already have 2 of the 22110 cards on a E10M20-T1 card in a ds2419+. Have been impressed with both the 10Gb and M2 Cache on it so far (only been in 3 days so cache still settling down).
They need NAS optimised NVME list witch would be enterprise NVME (power loss protection ones typically) and wd red ssd/seagate ironwolf ssds and Synology NVME as they are optimised with QOS for 99.9% read /write and IOPS consistency (and low access times) and just normal sata and nvme ssds list (like Samsung evos) enterprise/nas optimised nvme ssds can be used in a normal system environments and won't slow down under high load Usage (but write will be consistently slower then a consumer NVME ssds, but consumer nvme ssds can only keep the spec write speeds as long as the SLC cache is not filled, once its filled up it can no longer keep high IOPS and write speed any more and may result in higher access time latency) Synology really needs to be shipping 2.5gbs or 5gbs in models that have dual slot NVME, as 1gbs is a joke really another thing is how do Synology have there ssd caching setup, as I believe qnap? let you pick between boost random io read/write caching only (witch is default as hdds are good at doing sequential read and writes so makes sense to boost only random read/write) , or full read/write caching everything I don't think it matters if you have 4x10tb hdds with ssd caching because if it's smart it shouldn't be caching sequential io much (just random)
Over provisioning does nothing to little for performance at all, its helps drive life and nothing more especially in high write environments such as NAS. That's the reason high end enterprise drives use SLC/MLC (this isn't so it really more soho than enterprise) and/or vastly overprovisioned drives like this not performance (so there's plenty of cells to swap out for wear leveling).
There is no reason this video needs to be 23 minutes long. Maybe try a 4-6 min MAX length video covering the key bullet points and functions of the product instead of rambling on for almost a half hour. Awesome videos, we all really appreciate the knowledge.
I understand the focus is on views but this is an extremely valuable and underrated series that I hope to hear from you. Been a year and seems like this is all there is to SNV4310 in ALL OF TH-cam. All the best!
already have 2 of the 22110 cards on a E10M20-T1 card in a ds2419+. Have been impressed with both the 10Gb and M2 Cache on it so far (only been in 3 days so cache still settling down).
Does it matter if I buy only 1 or do I need to buy 2 for my DS918+?
great devices, when can we see memory upgrade for DS920+
They need NAS optimised NVME list witch would be enterprise NVME (power loss protection ones typically) and wd red ssd/seagate ironwolf ssds and Synology NVME as they are optimised with QOS for 99.9% read /write and IOPS consistency (and low access times) and just normal sata and nvme ssds list (like Samsung evos)
enterprise/nas optimised nvme ssds can be used in a normal system environments and won't slow down under high load Usage (but write will be consistently slower then a consumer NVME ssds, but consumer nvme ssds can only keep the spec write speeds as long as the SLC cache is not filled, once its filled up it can no longer keep high IOPS and write speed any more and may result in higher access time latency)
Synology really needs to be shipping 2.5gbs or 5gbs in models that have dual slot NVME, as 1gbs is a joke really
another thing is how do Synology have there ssd caching setup, as I believe qnap? let you pick between boost random io read/write caching only (witch is default as hdds are good at doing sequential read and writes so makes sense to boost only random read/write) , or full read/write caching everything
I don't think it matters if you have 4x10tb hdds with ssd caching because if it's smart it shouldn't be caching sequential io much (just random)
Over provisioning does nothing to little for performance at all, its helps drive life and nothing more especially in high write environments such as NAS.
That's the reason high end enterprise drives use SLC/MLC (this isn't so it really more soho than enterprise) and/or vastly overprovisioned drives like this not performance (so there's plenty of cells to swap out for wear leveling).