DigitalOcean Premium AMD (8 GB, 4 Cores) vs. Vultr Cloud Compute (2 GB, 2 Cores)

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My friend, I'm so glad you're here! Today I've spun up brand new instance from DigitalOcean and Vultr and ran some benchmarks. All instances were running Ubuntu 24.04 LTS x64 and were created in the New York area (or close to it). Let's get into the numbers.

Overview

DigitalOcean – Premium AMD (8 GB, 4 Cores) Vultr – Cloud Compute (2 GB, 2 Cores)
Last Benchmarked Wed, 13 May 2026 09:00:52 GMT Mon, 11 May 2026 04:00:52 GMT
Linux Distro Ubuntu 24.04 LTS x64 Ubuntu 24.04 LTS x64
Kernel Version 6.8.0-71-generic 6.8.0-111-generic
MySQL Version 8.0.45-0ubuntu0.24.04.1 8.0.45-0ubuntu0.24.04.1
Redis Version 7.0.15 7.0.15
Location New York, NY Newark, NJ
Monthly Price $56.00 $15.00
RAM (GB) 8 2
CPU Cores 4 2
Storage (TB) 160 65
Storage Type NVMe SSD
Transfer (TB) 5 3

CPU

DigitalOcean – Premium AMD (8 GB, 4 Cores) Vultr – Cloud Compute (2 GB, 2 Cores)
Vendor AuthenticAMD GenuineIntel
Model Name DO-Premium-AMD Intel Core Processor (Skylake, IBRS, no TSX)
Clock Speed (MHz) 1,996.25 3,792.00
CPU Cache Size (KB) 512.00 16,384.00
BogoMips 3,992.50 7,583.99
Events per Second 1,440.13 1,481.60
Minimum Latency (ms) 0.62 0.63
Average Latency (ms) 0.69 0.67
Maximum Latency (ms) 0.99 1.95
95th Percentile Latency (ms) 0.74 0.77

Memory

Memory Read

DigitalOcean – Premium AMD (8 GB, 4 Cores) Vultr – Cloud Compute (2 GB, 2 Cores)
Operations per second 4,607,623.18 6,401,389.08
Mebibytes per second 4,499.63 6,251.36
Minimum Latency (ms) 0 0
Average Latency (ms) 0 0
Maximum Latency (ms) 0.25 0.23
95th Percentile Latency (ms) 0 0

Memory Write

DigitalOcean – Premium AMD (8 GB, 4 Cores) Vultr – Cloud Compute (2 GB, 2 Cores)
Operations per second 4,250,543.24 6,411,085.35
Mebibytes per second 4,150.92 6,260.83
Minimum Latency (ms) 0 0
Average Latency (ms) 0 0
Maximum Latency (ms) 0.24 0.18
95th Percentile Latency (ms) 0 0

File I/O

DigitalOcean – Premium AMD (8 GB, 4 Cores) Vultr – Cloud Compute (2 GB, 2 Cores)
Reads per Second 2,071.41 4,345.71
Writes per Second 1,380.94 2,897.07
Fsyncs per Second 4,423.81 9,273.19
Read Mebibytes per Second 32.37 67.90
Written Mebibytes per Second 21.58 45.27
Minimum Latency (ms) 0 0
Average Latency (ms) 0.13 0.06
Maximum Latency (ms) 11.5 2.92
95th Percentile Latency (ms) 0.63 0.17

Mutex

DigitalOcean – Premium AMD (8 GB, 4 Cores) Vultr – Cloud Compute (2 GB, 2 Cores)
Minimum Latency (ms) 387.26 214.63
Average Latency (ms) 503.53 569.72
Maximum Latency (ms) 571.47 636.55
95th Percentile Latency (ms) 569.67 634.66

MySQL

MySQL Read-only

DigitalOcean – Premium AMD (8 GB, 4 Cores) Vultr – Cloud Compute (2 GB, 2 Cores)
Transactions per second 5,335.00 8,015.00
Queries per second 53,350.00 80,150.00
Minimum Latency (ms) 1.35 0.92
Average Latency (ms) 1.87 1.25
Maximum Latency (ms) 4.01 5.5
95th Percentile Latency (ms) 2.39 1.86

MySQL Write-only

DigitalOcean – Premium AMD (8 GB, 4 Cores) Vultr – Cloud Compute (2 GB, 2 Cores)
Transactions per second 2,633.00 8,497.00
Queries per second 26,330.00 84,970.00
Minimum Latency (ms) 1.64 0.76
Average Latency (ms) 3.79 1.17
Maximum Latency (ms) 17.49 3.04
95th Percentile Latency (ms) 5.88 1.55

MySQL Read/Write

DigitalOcean – Premium AMD (8 GB, 4 Cores) Vultr – Cloud Compute (2 GB, 2 Cores)
Transactions per second 1,598.00 3,726.00
Queries per second 15,980.00 37,260.00
Minimum Latency (ms) 2.99 1.78
Average Latency (ms) 6.25 2.68
Maximum Latency (ms) 47.79 5.82
95th Percentile Latency (ms) 9.39 3.43

MySQL INSERT

DigitalOcean – Premium AMD (8 GB, 4 Cores) Vultr – Cloud Compute (2 GB, 2 Cores)
Transactions per second 3,813.00 15,028.00
Queries per second 38,130.00 150,280.00
Minimum Latency (ms) 1.33 0.41
Average Latency (ms) 2.62 0.66
Maximum Latency (ms) 21.61 2.42
95th Percentile Latency (ms) 4.33 0.86

MySQL Bulk INSERT

DigitalOcean – Premium AMD (8 GB, 4 Cores) Vultr – Cloud Compute (2 GB, 2 Cores)
Transactions per second 1,317,592.00 1,696,217.00
Queries per second 13,175,920.00 16,962,170.00
Minimum Latency (ms) 0 0
Average Latency (ms) 0.01 0.01
Maximum Latency (ms) 494.55 283.37
95th Percentile Latency (ms) 0 0

MySQL SELECT

DigitalOcean – Premium AMD (8 GB, 4 Cores) Vultr – Cloud Compute (2 GB, 2 Cores)
Transactions per second 128,652.00 201,989.00
Queries per second 1,286,520.00 2,019,890.00
Minimum Latency (ms) 0.05 0.03
Average Latency (ms) 0.08 0.05
Maximum Latency (ms) 0.43 0.51
95th Percentile Latency (ms) 0.11 0.07

MySQL SELECT (Random Points)

DigitalOcean – Premium AMD (8 GB, 4 Cores) Vultr – Cloud Compute (2 GB, 2 Cores)
Transactions per second 6,602.00 8,025.00
Queries per second 66,020.00 80,250.00
Minimum Latency (ms) 0.51 0.35
Average Latency (ms) 1.51 1.24
Maximum Latency (ms) 9.03 3.55
95th Percentile Latency (ms) 2.14 2.07

MySQL SELECT (Random Ranges)

DigitalOcean – Premium AMD (8 GB, 4 Cores) Vultr – Cloud Compute (2 GB, 2 Cores)
Transactions per second 6,138.00 8,336.00
Queries per second 61,380.00 83,360.00
Minimum Latency (ms) 0.54 0.4
Average Latency (ms) 1.63 1.2
Maximum Latency (ms) 3.46 4.25
95th Percentile Latency (ms) 2.18 2.22

MySQL UPDATE (Indexed)

DigitalOcean – Premium AMD (8 GB, 4 Cores) Vultr – Cloud Compute (2 GB, 2 Cores)
Transactions per second 4,416.00 13,858.00
Queries per second 44,160.00 138,580.00
Minimum Latency (ms) 1.05 0.42
Average Latency (ms) 2.26 0.72
Maximum Latency (ms) 16.43 6.33
95th Percentile Latency (ms) 3.49 0.95

MySQL UPDATE (Non-Indexed)

DigitalOcean – Premium AMD (8 GB, 4 Cores) Vultr – Cloud Compute (2 GB, 2 Cores)
Transactions per second 3,561.00 14,587.00
Queries per second 35,610.00 145,870.00
Minimum Latency (ms) 1.35 0.4
Average Latency (ms) 2.81 0.68
Maximum Latency (ms) 32.29 11.69
95th Percentile Latency (ms) 4.41 0.9

MySQL DELETE

DigitalOcean – Premium AMD (8 GB, 4 Cores) Vultr – Cloud Compute (2 GB, 2 Cores)
Transactions per second 25,316.00 129,013.00
Queries per second 253,160.00 1,290,130.00
Minimum Latency (ms) 0.05 0.03
Average Latency (ms) 0.39 0.08
Maximum Latency (ms) 24.37 2.61
95th Percentile Latency (ms) 2.48 0.09

Redis

DigitalOcean – Premium AMD (8 GB, 4 Cores) Vultr – Cloud Compute (2 GB, 2 Cores)
PING_INLINE per Second 50,025.02 78,247.26
PING_MBULK per Second 48,123.20 74,738.41
SET per Second 54,318.30 77,041.60
GET per Second 50,428.64 83,333.33
INCR per Second 48,851.98 80,971.66
LPUSH per Second 50,327.12 79,113.92
RPUSH per Second 49,164.21 77,160.49
LPOP per Second 48,590.86 81,499.59
RPOP per Second 51,519.84 82,440.23
SADD per Second 50,607.29 80,192.46
HSET per Second 60,532.69 83,612.04
SPOP per Second 60,975.61 85,034.02
ZADD per Second 56,433.41 83,263.95
ZPOPMIN per Second 49,800.80 82,987.55
LRANGE_100 (first 100 elements) per Second 36,710.72 55,555.56
LRANGE_300 (first 300 elements) per Second 22,624.43 28,851.70
LRANGE_500 (first 500 elements) per Second 17,003.91 19,391.12
LRANGE_600 (first 600 elements) per Second 14,465.50 17,211.71
MSET (10 keys) per Second 51,440.33 80,256.82

Redis Average Latency (ms)

DigitalOcean – Premium AMD (8 GB, 4 Cores) Vultr – Cloud Compute (2 GB, 2 Cores)
PING_INLINE0.530.34
PING_MBULK0.540.35
SET0.480.34
GET0.510.32
INCR0.540.32
LPUSH0.520.34
RPUSH0.530.34
LPOP0.540.32
RPOP0.510.32
SADD0.520.32
HSET0.430.31
SPOP0.430.30
ZADD0.460.31
ZPOPMIN0.520.31
LRANGE_100 (first 100 elements)0.790.54
LRANGE_300 (first 300 elements)1.251.11
LRANGE_500 (first 500 elements)1.621.62
LRANGE_600 (first 600 elements)1.911.84
MSET (10 keys)0.520.38

Conclusion

From the friendly robots:

Upon analyzing the benchmarks, the DigitalOcean Premium AMD instance shows superior performance in memory operations, file I/O operations, and Redis operations, indicating strong memory throughput and fast file system latency. The Vultr Cloud Compute instance, while excelling in high-throughput Redis operations, lags behind in memory and I/O performance, as well as in CPU operations. Given these results, the DigitalOcean instance is better suited for workloads that benefit from high memory and I/O performance, such as memory-intensive applications or heavy database operations, whereas the Vultr instance might be more cost-effective for lower-demand applications that prioritize high Redis throughput but do not require extensive memory or I/O operations.

From the friendly human:

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