The AMD EPYC 7R32 was a server/workstation processor with 48 cores, launched in [insert launch date if available]. It is part of the EPYC lineup, using the [insert architecture name, e.g., Zen 2] architecture with Socket SP3. Thanks to Simultaneous Multithreading (SMT), the core-count is effectively doubled, to 96 threads. To further increase overall system performance, up to two EPYC 7R32 CPUs can work together in a multi-processor (SMP) configuration. EPYC 7R32 has a massive 192 MB of L3 cache and operates at a base frequency of 2.8 GHz, with a boost frequency of up to 3.3 GHz depending on workload and thermal conditions. AMD is manufacturing the EPYC 7R32 on a [insert production node, e.g., 7 nm] production process using [insert transistor count if available] million transistors. The multiplier is locked on EPYC 7R32, which limits its overclocking potential. With a TDP of 280 W, the EPYC 7R32 is extremely power-hungry, requiring robust cooling solutions. AMD's processor supports DDR4 memory with an [insert memory channel count, e.g., octa-channel] interface. ECC memory is supported, which is critical for mission-critical systems to prevent data corruption. For communication with other system components, EPYC 7R32 uses a [insert PCIe generation, e.g., PCI-Express Gen 4] connection. This processor lacks integrated graphics, so a dedicated graphics card may be necessary. Hardware virtualization is supported on the EPYC 7R32, significantly enhancing virtual machine performance. Additionally, it includes advanced security features such as [insert security features if known, e.g., AMD Secure Memory Encryption (SME) and Secure Encrypted Virtualization (SEV)].

(Note: Replace bracketed placeholders with verified specifications if available. Key details like architecture, launch date, PCIe generation, and production node are typically found in official AMD documentation.)