Vultr Cloud Compute (4 GB, 2 Cores) vs. Vultr High Frequency Intel (2 GB)
Fresh benchmarks coming at ya. Today I've spun up some brand new instance from Vultr and ran my world famous suite of benchmarking scripts. Each instance was spun up with Ubuntu 24.04 LTS x64 and all resided in or around the New York / New Jersey area. Without further ado, here's the results.
Overview
Vultr – Cloud Compute (4 GB, 2 Cores)
Vultr – High Frequency Intel (2 GB)
Last Benchmarked
Thu, 11 Jun 2026 09:00:52 GMT
Thu, 11 Jun 2026 13:00:52 GMT
Linux Distro
Ubuntu 24.04 LTS x64
Ubuntu 24.04 LTS x64
Kernel Version
6.8.0-124-generic
6.8.0-124-generic
MySQL Version
8.0.46-0ubuntu0.24.04.2
8.0.46-0ubuntu0.24.04.2
Redis Version
7.0.15
7.0.15
Location
Newark, NJ
Newark, NJ
Monthly Price
$20.00
$12.00
RAM (GB)
4
2
CPU Cores
2
1
Storage (TB)
80
64
Storage Type
SSD
NVMe
Transfer (TB)
3
2
CPU
Vultr – Cloud Compute (4 GB, 2 Cores)
Vultr – High Frequency Intel (2 GB)
Vendor
GenuineIntel
GenuineIntel
Model Name
Intel Xeon Processor (Skylake, IBRS)
Intel Core Processor (Skylake, IBRS, no TSX)
Clock Speed (MHz)
2,593.91
3,192.00
CPU Cache Size (KB)
16,384.00
16,384.00
BogoMips
5,187.81
6,384.00
Events per Second
1,022.39
3,899.69
Minimum Latency (ms)
0.88
0.25
Average Latency (ms)
0.98
0.26
Maximum Latency (ms)
1.77
1.33
95th Percentile Latency (ms)
1.21
0.27
Memory
Memory Read
Vultr – Cloud Compute (4 GB, 2 Cores)
Vultr – High Frequency Intel (2 GB)
Operations per second
3,523,809.57
8,496,932.07
Mebibytes per second
3,441.22
8,297.79
Minimum Latency (ms)
0
0
Average Latency (ms)
0
0
Maximum Latency (ms)
0.22
0.38
95th Percentile Latency (ms)
0
0
Memory Write
Vultr – Cloud Compute (4 GB, 2 Cores)
Vultr – High Frequency Intel (2 GB)
Operations per second
3,568,203.77
8,487,506.12
Mebibytes per second
3,484.57
8,288.58
Minimum Latency (ms)
0
0
Average Latency (ms)
0
0
Maximum Latency (ms)
1.02
0.24
95th Percentile Latency (ms)
0
0
File I/O
Vultr – Cloud Compute (4 GB, 2 Cores)
Vultr – High Frequency Intel (2 GB)
Reads per Second
2,972.63
6,650.52
Writes per Second
1,981.75
4,433.68
Fsyncs per Second
6,347.81
14,188.42
Read Mebibytes per Second
46.45
103.91
Written Mebibytes per Second
30.96
69.28
Minimum Latency (ms)
0
0
Average Latency (ms)
0.09
0.04
Maximum Latency (ms)
17.12
1.57
95th Percentile Latency (ms)
0.33
0.14
Mutex
Vultr – Cloud Compute (4 GB, 2 Cores)
Vultr – High Frequency Intel (2 GB)
Minimum Latency (ms)
899.28
1,106.61
Average Latency (ms)
935.93
1,112.72
Maximum Latency (ms)
969.92
1,117.99
95th Percentile Latency (ms)
977.74
1,109.09
MySQL
MySQL Read-only
Vultr – Cloud Compute (4 GB, 2 Cores)
Vultr – High Frequency Intel (2 GB)
Transactions per second
3,779.00
12,548.00
Queries per second
37,790.00
125,480.00
Minimum Latency (ms)
1.84
0.75
Average Latency (ms)
2.64
0.8
Maximum Latency (ms)
24.55
2.98
95th Percentile Latency (ms)
3.82
0.84
MySQL Write-only
Vultr – Cloud Compute (4 GB, 2 Cores)
Vultr – High Frequency Intel (2 GB)
Transactions per second
4,044.00
13,585.00
Queries per second
40,440.00
135,850.00
Minimum Latency (ms)
1.4
0.51
Average Latency (ms)
2.47
0.74
Maximum Latency (ms)
13.46
2.61
95th Percentile Latency (ms)
3.3
1.1
MySQL Read/Write
Vultr – Cloud Compute (4 GB, 2 Cores)
Vultr – High Frequency Intel (2 GB)
Transactions per second
1,798.00
5,867.00
Queries per second
17,980.00
58,670.00
Minimum Latency (ms)
3.86
1.41
Average Latency (ms)
5.56
1.7
Maximum Latency (ms)
27.33
8.4
95th Percentile Latency (ms)
6.91
2.14
MySQL INSERT
Vultr – Cloud Compute (4 GB, 2 Cores)
Vultr – High Frequency Intel (2 GB)
Transactions per second
6,405.00
27,860.00
Queries per second
64,050.00
278,600.00
Minimum Latency (ms)
0.99
0.28
Average Latency (ms)
1.56
0.36
Maximum Latency (ms)
15.15
1.62
95th Percentile Latency (ms)
2.03
0.44
MySQL Bulk INSERT
Vultr – Cloud Compute (4 GB, 2 Cores)
Vultr – High Frequency Intel (2 GB)
Transactions per second
865,805.00
2,599,092.00
Queries per second
8,658,050.00
25,990,920.00
Minimum Latency (ms)
0
0
Average Latency (ms)
0.01
0
Maximum Latency (ms)
538.25
187.15
95th Percentile Latency (ms)
0
0
MySQL SELECT
Vultr – Cloud Compute (4 GB, 2 Cores)
Vultr – High Frequency Intel (2 GB)
Transactions per second
126,618.00
297,068.00
Queries per second
1,266,180.00
2,970,680.00
Minimum Latency (ms)
0.05
0.03
Average Latency (ms)
0.08
0.03
Maximum Latency (ms)
2.46
0.72
95th Percentile Latency (ms)
0.11
0.04
MySQL SELECT (Random Points)
Vultr – Cloud Compute (4 GB, 2 Cores)
Vultr – High Frequency Intel (2 GB)
Transactions per second
3,674.00
13,257.00
Queries per second
36,740.00
132,570.00
Minimum Latency (ms)
1.07
0.26
Average Latency (ms)
2.72
0.75
Maximum Latency (ms)
6.45
2.75
95th Percentile Latency (ms)
3.55
0.95
MySQL SELECT (Random Ranges)
Vultr – Cloud Compute (4 GB, 2 Cores)
Vultr – High Frequency Intel (2 GB)
Transactions per second
2,728.00
15,120.00
Queries per second
27,280.00
151,200.00
Minimum Latency (ms)
1.3
0.22
Average Latency (ms)
3.66
0.66
Maximum Latency (ms)
11.85
2.01
95th Percentile Latency (ms)
5
0.84
MySQL UPDATE (Indexed)
Vultr – Cloud Compute (4 GB, 2 Cores)
Vultr – High Frequency Intel (2 GB)
Transactions per second
5,438.00
23,075.00
Queries per second
54,380.00
230,750.00
Minimum Latency (ms)
0.99
0.28
Average Latency (ms)
1.84
0.43
Maximum Latency (ms)
13.86
1.57
95th Percentile Latency (ms)
2.71
0.67
MySQL UPDATE (Non-Indexed)
Vultr – Cloud Compute (4 GB, 2 Cores)
Vultr – High Frequency Intel (2 GB)
Transactions per second
6,370.00
24,444.00
Queries per second
63,700.00
244,440.00
Minimum Latency (ms)
1.01
0.28
Average Latency (ms)
1.57
0.41
Maximum Latency (ms)
8.99
3.64
95th Percentile Latency (ms)
2.07
0.63
MySQL DELETE
Vultr – Cloud Compute (4 GB, 2 Cores)
Vultr – High Frequency Intel (2 GB)
Transactions per second
51,180.00
220,013.00
Queries per second
511,800.00
2,200,130.00
Minimum Latency (ms)
0.05
0.03
Average Latency (ms)
0.19
0.05
Maximum Latency (ms)
6.11
1.46
95th Percentile Latency (ms)
1.39
0.07
Redis
Vultr – Cloud Compute (4 GB, 2 Cores)
Vultr – High Frequency Intel (2 GB)
PING_INLINE per Second
49,677.10
59,559.26
PING_MBULK per Second
45,372.05
60,422.96
SET per Second
45,392.64
59,772.86
GET per Second
53,163.21
59,916.12
INCR per Second
48,732.94
59,988.00
LPUSH per Second
50,327.12
59,630.29
RPUSH per Second
48,285.85
59,453.03
LPOP per Second
48,355.90
59,101.65
RPOP per Second
51,413.88
58,582.31
SADD per Second
48,332.53
60,060.06
HSET per Second
49,285.36
59,453.03
SPOP per Second
48,332.53
60,204.70
ZADD per Second
51,229.51
59,241.71
ZPOPMIN per Second
45,085.66
60,277.27
LRANGE_100 (first 100 elements) per Second
27,122.32
44,014.08
LRANGE_300 (first 300 elements) per Second
12,442.45
26,759.43
LRANGE_500 (first 500 elements) per Second
7,930.21
19,264.11
LRANGE_600 (first 600 elements) per Second
6,902.74
17,064.85
MSET (10 keys) per Second
45,146.73
56,497.18
Redis Average Latency (ms)
Vultr – Cloud Compute (4 GB, 2 Cores)
Vultr – High Frequency Intel (2 GB)
PING_INLINE
0.53
0.53
PING_MBULK
0.57
0.52
SET
0.57
0.52
GET
0.49
0.52
INCR
0.53
0.52
LPUSH
0.51
0.53
RPUSH
0.54
0.53
LPOP
0.54
0.53
RPOP
0.52
0.54
SADD
0.55
0.52
HSET
0.54
0.53
SPOP
0.54
0.52
ZADD
0.52
0.53
ZPOPMIN
0.57
0.52
LRANGE_100 (first 100 elements)
1.02
0.74
LRANGE_300 (first 300 elements)
2.29
1.23
LRANGE_500 (first 500 elements)
3.27
1.72
LRANGE_600 (first 600 elements)
3.91
1.99
MSET (10 keys)
0.78
0.58
Conclusion
From the friendly robots:
Based on the benchmark performance, the Vultr Cloud Compute instance with 4 GB of RAM and 2 cores offers significantly higher performance for both Redis operations and CPU tasks compared to the High Frequency Intel instance with 2 GB of RAM and 1 core, as evidenced by higher requests per second (rps) and lower latency metrics across a variety of benchmarks. While both instances show strong performance in memory operations and file I/O, the Cloud Compute instance clearly outpaces in CPU-intensive and I/O-heavy workloads, making it ideal for applications requiring substantial computational power and memory. Conversely, the High Frequency Intel instance, though competent, is more suited for lighter workloads where cost-efficiency and minimal resource usage are prioritized over peak performance.
From the friendly human:
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