Service Tool V3.400

[Socorro Henson]

I have tried reset steps with the printer's manual power/stop controls to reset the waste ink counter without success. Understand i can do that with the assist of the above service mode tools... but can't find a direct safe download source for either version.

I've downloaded the correct service tools and used two appropriate softwares to open them on my mac since they are Windows files. That was successful... but my Canon MG6100 printer won't respond/sync with the service tool... and used a USB connection as instructed And I haven't discovered a manual way to reset the counter. I think I'm against a rock and hard place. I just needed it to last through Xmas

This Canon service tool is a program to fix printer problems in various types of Canon printers from the inside, such as resetting, maintenance, and so on. Some errors that can be overcome with this resetter are Error B200.

This product guide provides essential pre-sales information to understand the ThinkSystem SR675 V3 server, its key features and specifications, components and options, and configuration guidelines. This guide is intended for technical specialists, sales specialists, sales engineers, IT architects, and other IT professionals who want to learn more about the SR675 V3 and consider its use in IT solutions.

The server delivers optimal performance for Artificial Intelligence (AI), High Performance Computing (HPC) and graphical workloads across an array of industries. Retail, manufacturing, financial services and healthcare industries can leverage the processing power of the GPUs in the SR675 V3 to extract greater insights and drive innovation utilizing machine learning (ML) and deep learning (DL).

Traditional air-cooling methods are reaching critical limits. Increases in component power especially on CPU and GPU have resulted in higher energy and infrastructure costs, extremely loud systems and heightened carbon footprints. To combat these challenges and dissipate heat quickly, the SR675 V3 employs Lenovo Neptune liquid-to-air (L2A) hybrid cooling technology. The heat of the NVIDIA HGX H100 GPUs is removed through a unique closed loop liquid-to-air heat exchanger that delivers the benefits of liquid cooling such as higher density, lower power consumption, quiet operation and higher performance without adding plumbing.

There are three different base configurations of the SR675 V3 as shown in the following figure. The configurations determine the type and quantity of GPUs supported as well as the supported drive bays.

The following figure shows the main components on the front of the configuration with 8x double-wide PCIe GPUs and 6x E1.S EDSFF hot-swap drives. In this configuration, there are two front I/O PCIe slots.

Chipkill (with x4 DIMM), ECC, DRAM patrol + redirect scrubbers, DRAM address/command parity, DRAM read and write data CRC, DRAM runtime post-package repair, failed DIMM identification, DRAM leaky bucket error counters.

The OCP slot supports a variety of 2-port and 4-port adapters with 1GbE, 10GbE and 25GbE network connectivity. One port can optionally be shared with the XClarity Controller 2 (XCC2) management processor for Wake-on-LAN and NC-SI support.

Up to four 1U hot-swap CFFv4 AC power supplies with 80 PLUS Titanium or 80 PLUS Platinum certification. 1800 W, 2400 W or 2600 W AC options, supporting 220 V AC. In China only, power supplies also support 240 V DC.

Configure-to-order (CTO) models are used to create models with factory-integrated server customizations. For CTO models, two types of base CTO models are available for the SR675 V3 as listed in the columns in the following table:

Controlled GPU models: The "Controlled GPU" base CTO models listed in the table are the only models that support high-performance GPUs and accelerators. These models are classified under US Government ECCN regulations and have limited market and customer availability. All other base models do not support high-performance GPUs.

Preconfigured server models may also be available for the SR675 V3, however these are region-specific; that is, each region may define their own server models, and not all server models are available in every region.

The SR675 V3 offers preset operating modes that affect energy consumption and performance. These modes are a collection of predefined low-level UEFI settings that simplify the task of tuning the server to suit your business and workload requirements.

For details about these preset modes, and all other performance and power efficiency UEFI settings offered in the SR675 V3, see the paper "Tuning UEFI Settings for Performance and Energy Efficiency on AMD Processor-Based ThinkSystem Servers", available from

The SR675 V3 uses Lenovo TruDDR5 memory operating at up to 4800 MHz. The server supports up to 24 DIMMs with 2 processors. The processors have 12 memory channels and support 1 DIMM per channel. The server supports up to 3TB of memory using 24x 128GB 3DS RDIMMs and two processors.

Lenovo TruDDR5 memory uses the highest quality components that are sourced from Tier 1 DRAM suppliers and only memory that meets the strict requirements of Lenovo is selected. It is compatibility tested and tuned to maximize performance and reliability. From a service and support standpoint, Lenovo TruDDR5 memory automatically assumes the system warranty, and Lenovo provides service and support worldwide.

9x4 RDIMMs (also known as Optimized or EC4 RDIMMs) are a new lower-cost DDR5 memory option supported in ThinkSystem V3 servers. 9x4 DIMMs offer the same performance as standard RDIMMs (known as 10x4 or EC8 modules), however they support lower fault-tolerance characteristics. Standard RDIMMs and 3DS RDIMMs support two 40-bit subchannels (that is, a total of 80 bits), whereas 9x4 RDIMMs support two 36-bit subchannels (a total of 72 bits). The extra bits in the subchannels allow standard RDIMMs and 3DS RDIMMs to support Single Device Data Correction (SDDC), however 9x4 RDIMMs do not support SDDC. Note, however, that all DDR5 DIMMs, including 9x4 RDIMMs, support Bounded Fault correction, which enables the server to correct most common types of DRAM failures.

The SR675 V3 supports drives at the front of the server as shown in the Components and connectors section. The choice of drive bays depends on the GPU configuration selected, as described in Configurations section:

If you plan to add one of the RAID adapters that includes a RAID flash power module (supercap) as a field upgrade, then you will also need to order a Supercap installation kit for the supercap. For CTO orders, the components needed are automatically derived when you select the RAID adapter.

The SR675 V3 supports up to two supercap holders. SR675 V3 supports 2x rear risers and each of them can support one supercap holder on the top slot. Note that the serial port cable is placed at the same slot. If the slot is occupied by the supercap holder, then the serial port cable needs to be assigned to a different port.

The SR675 V3 supports only NVMe M.2 boot devices. SATA M.2 is not supported. The system support M.2 boot backplanes attached to the P4 link of CPU1. Depending on the boot backplane that is attached, the system will support either two non-RAID x1 devices via direct connect or two x1 RAID NVMe M.2 devices behind a NVMe RAID controller. The system will detect the M.2 adapter installed and bifurcate the link accordingly

The 8-DW GPU model of the SR675 V3 supports E1.S EDSFF (Enterprise & Datacenter SSD Form Factor) drives with the E1.S (short) form factor. Up to 6 hot-swap EDSFF drives can be installed in the server.

The 8-DW GPU and SXM GPU models of the SR675 V3 supports E3.S 1T EDSFF (Enterprise & Datacenter SSD Form Factor) drives with the E1.S (short) form factor. Up to 4 hot-swap EDSFF drives can be installed in the server.

For SXM configurations, the supported adapter is ThinkSystem RAID 940-16i 8GB Flash PCIe Gen4 12Gb Adapter for U.2 (BCYV). In this setting this adapter supports NVMe U.2 drives only. Additionally, support for the NVMe U.2 drives connected via a PCIe x4 link to the controller are available with SXM configurations 8, 11, 12, 17, and 18.

The RAID 940-8i and RAID 940-16i adapters also support NVMe through a feature named Tri-Mode support (or Trimode support). This feature enables the use of NVMe U.3 drives at the same time as SAS and SATA drives. Tri-Mode requires an AnyBay backplane. Cabling of the controller to the backplanes is the same as with SAS/SATA drives, and the NVMe drives are connected via a PCIe x1 link to the controller.

NVMe drives connected using Tri-Mode support provide better performance than SAS or SATA drives: A SATA SSD has a data rate of 6Gbps, a SAS SSD has a data rate of 12Gbps, whereas an NVMe U.3 Gen 4 SSD with a PCIe x1 link will have a data rate of 16Gbps. NVMe drives typically also have lower latency and higher IOPS compared to SAS and SATA drives. Tri-Mode is supported with U.3 NVMe drives and requires an AnyBay backplane.

Tri-Mode requires U.3 drives: Only NVMe drives with a U.3 interface are supported. U.2 drives are not supported. See the Internal drive options section for the U.3 drives supported by the server.

SED support: The tables include a column to indicate which drives support SED encryption. The encryption functionality can be disabled if needed. Note: Not all SED-enabled drives have "SED" in the description.

The server also supports, for networking or storage adapters, up to four PCIe 5.0 x16 slots plus an OCP slot, depending on the GPU and drive bay configuration selected. Slot selection is a subset of the following slots:

The SXM5 PCIe Switch Riser (feature BR9D) supports 4-Way SXM5 4-GPU baseboard. The switched riser allows the implementation of NVIDIA GPU Direct. This eliminates the system CPUs and the required buffer copies of data via the system memory, resulting in better performance. BR9D provides two x16 connection to the Front IO riser that are NVIDIA GPU Direct.

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