How much does Vultr Cloud Compute (2 GB, 2 Cores) cost per month?

Vultr Cloud Compute (2 GB, 2 Cores) is $15.00/mo and includes 2 vCPU, 2 GB RAM, 65 GB SSD of storage, and 3 TB of transfer.

How much does Vultr High Frequency Intel (2 GB) cost per month?

Vultr High Frequency Intel (2 GB) is $12.00/mo and includes 1 vCPU, 2 GB RAM, 64 GB NVMe of storage, and 2 TB of transfer.

What are the specs of Vultr Cloud Compute (2 GB, 2 Cores)?

Vultr Cloud Compute (2 GB, 2 Cores) has 2 vCPU, 2 GB RAM, 65 GB SSD of storage, and 3 TB of monthly transfer for $15.00/mo.

Vultr Cloud Compute 2 GB, 2 Cores ($15/mo) vs. Vultr High Frequency Intel 2 GB ($12/mo) Benchmarks

Welcome to another round of the VPS Showdown. Today I've spun up brand new instance from Vultr and ran some benchmarks. Each instance was running Ubuntu 24.04 LTS x64 and were created in or around the New York / New Jersey area. Time to see who showed up today.

Overview

	Vultr – Cloud Compute (2 GB, 2 Cores)	Vultr – High Frequency Intel (2 GB)
Last Benchmarked	Mon, 11 May 2026 04:00:52 GMT	Mon, 11 May 2026 09:00:53 GMT
Linux Distro	Ubuntu 24.04 LTS x64	Ubuntu 24.04 LTS x64
Kernel Version	6.8.0-111-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	Newark, NJ	Newark, NJ
Monthly Price	$15.00	$12.00
RAM (GB)	2	2
CPU Cores	2	1
Storage (TB)	65	64
Storage Type	SSD	NVMe
Transfer (TB)	3	2

CPU

	Vultr – Cloud Compute (2 GB, 2 Cores)	Vultr – High Frequency Intel (2 GB)
Vendor	GenuineIntel	GenuineIntel
Model Name	Intel Core Processor (Skylake, IBRS, no TSX)	Intel Core Processor (Skylake, IBRS, no TSX)
Clock Speed (MHz)	3,792.00	3,791.92
CPU Cache Size (KB)	16,384.00	16,384.00
BogoMips	7,583.99	7,583.83
Events per Second	1,481.60	1,623.96
Minimum Latency (ms)	0.63	0.59
Average Latency (ms)	0.67	0.62
Maximum Latency (ms)	1.95	2.57
95th Percentile Latency (ms)	0.77	0.64

Memory Read

	Vultr – Cloud Compute (2 GB, 2 Cores)	Vultr – High Frequency Intel (2 GB)
Operations per second	6,401,389.08	8,028,253.00
Mebibytes per second	6,251.36	7,840.09
Minimum Latency (ms)	0	0
Average Latency (ms)	0	0
Maximum Latency (ms)	0.23	0.2
95th Percentile Latency (ms)	0	0

Memory Write

	Vultr – Cloud Compute (2 GB, 2 Cores)	Vultr – High Frequency Intel (2 GB)
Operations per second	6,411,085.35	8,022,601.15
Mebibytes per second	6,260.83	7,834.57
Minimum Latency (ms)	0	0
Average Latency (ms)	0	0
Maximum Latency (ms)	0.18	0.27
95th Percentile Latency (ms)	0	0

File I/O

	Vultr – Cloud Compute (2 GB, 2 Cores)	Vultr – High Frequency Intel (2 GB)
Reads per Second	4,345.71	4,917.69
Writes per Second	2,897.07	3,278.46
Fsyncs per Second	9,273.19	10,498.56
Read Mebibytes per Second	67.90	76.84
Written Mebibytes per Second	45.27	51.23
Minimum Latency (ms)	0	0
Average Latency (ms)	0.06	0.05
Maximum Latency (ms)	2.92	1.69
95th Percentile Latency (ms)	0.17	0.18

Mutex

	Vultr – Cloud Compute (2 GB, 2 Cores)	Vultr – High Frequency Intel (2 GB)
Minimum Latency (ms)	214.63	1,065.51
Average Latency (ms)	569.72	1,070.36
Maximum Latency (ms)	636.55	1,075.66
95th Percentile Latency (ms)	634.66	1,069.86

MySQL Read-only

	Vultr – Cloud Compute (2 GB, 2 Cores)	Vultr – High Frequency Intel (2 GB)
Transactions per second	8,015.00	10,713.00
Queries per second	80,150.00	107,130.00
Minimum Latency (ms)	0.92	0.87
Average Latency (ms)	1.25	0.93
Maximum Latency (ms)	5.5	2.63
95th Percentile Latency (ms)	1.86	0.99

MySQL Write-only

	Vultr – Cloud Compute (2 GB, 2 Cores)	Vultr – High Frequency Intel (2 GB)
Transactions per second	8,497.00	10,055.00
Queries per second	84,970.00	100,550.00
Minimum Latency (ms)	0.76	0.68
Average Latency (ms)	1.17	0.99
Maximum Latency (ms)	3.04	10.38
95th Percentile Latency (ms)	1.55	1.27

MySQL Read/Write

	Vultr – Cloud Compute (2 GB, 2 Cores)	Vultr – High Frequency Intel (2 GB)
Transactions per second	3,726.00	4,079.00
Queries per second	37,260.00	40,790.00
Minimum Latency (ms)	1.78	1.82
Average Latency (ms)	2.68	2.45
Maximum Latency (ms)	5.82	6.54
95th Percentile Latency (ms)	3.43	3.13

MySQL INSERT

	Vultr – Cloud Compute (2 GB, 2 Cores)	Vultr – High Frequency Intel (2 GB)
Transactions per second	15,028.00	17,789.00
Queries per second	150,280.00	177,890.00
Minimum Latency (ms)	0.41	0.38
Average Latency (ms)	0.66	0.56
Maximum Latency (ms)	2.42	11.67
95th Percentile Latency (ms)	0.86	0.7

MySQL Bulk INSERT

	Vultr – Cloud Compute (2 GB, 2 Cores)	Vultr – High Frequency Intel (2 GB)
Transactions per second	1,696,217.00	2,238,676.00
Queries per second	16,962,170.00	22,386,760.00
Minimum Latency (ms)	0	0
Average Latency (ms)	0.01	0
Maximum Latency (ms)	283.37	213.8
95th Percentile Latency (ms)	0	0

MySQL SELECT

	Vultr – Cloud Compute (2 GB, 2 Cores)	Vultr – High Frequency Intel (2 GB)
Transactions per second	201,989.00	237,541.00
Queries per second	2,019,890.00	2,375,410.00
Minimum Latency (ms)	0.03	0.04
Average Latency (ms)	0.05	0.04
Maximum Latency (ms)	0.51	1.17
95th Percentile Latency (ms)	0.07	0.05

MySQL SELECT (Random Points)

	Vultr – Cloud Compute (2 GB, 2 Cores)	Vultr – High Frequency Intel (2 GB)
Transactions per second	8,025.00	11,395.00
Queries per second	80,250.00	113,950.00
Minimum Latency (ms)	0.35	0.29
Average Latency (ms)	1.24	0.88
Maximum Latency (ms)	3.55	3.62
95th Percentile Latency (ms)	2.07	1.1

MySQL SELECT (Random Ranges)

	Vultr – Cloud Compute (2 GB, 2 Cores)	Vultr – High Frequency Intel (2 GB)
Transactions per second	8,336.00	11,591.00
Queries per second	83,360.00	115,910.00
Minimum Latency (ms)	0.4	0.3
Average Latency (ms)	1.2	0.86
Maximum Latency (ms)	4.25	2.45
95th Percentile Latency (ms)	2.22	1.12

MySQL UPDATE (Indexed)

	Vultr – Cloud Compute (2 GB, 2 Cores)	Vultr – High Frequency Intel (2 GB)
Transactions per second	13,858.00	16,080.00
Queries per second	138,580.00	160,800.00
Minimum Latency (ms)	0.42	0.38
Average Latency (ms)	0.72	0.62
Maximum Latency (ms)	6.33	2.37
95th Percentile Latency (ms)	0.95	0.83

MySQL UPDATE (Non-Indexed)

	Vultr – Cloud Compute (2 GB, 2 Cores)	Vultr – High Frequency Intel (2 GB)
Transactions per second	14,587.00	16,743.00
Queries per second	145,870.00	167,430.00
Minimum Latency (ms)	0.4	0.38
Average Latency (ms)	0.68	0.6
Maximum Latency (ms)	11.69	2.12
95th Percentile Latency (ms)	0.9	0.77

MySQL DELETE

	Vultr – Cloud Compute (2 GB, 2 Cores)	Vultr – High Frequency Intel (2 GB)
Transactions per second	129,013.00	154,529.00
Queries per second	1,290,130.00	1,545,290.00
Minimum Latency (ms)	0.03	0.04
Average Latency (ms)	0.08	0.06
Maximum Latency (ms)	2.61	5
95th Percentile Latency (ms)	0.09	0.09

Redis

	Vultr – Cloud Compute (2 GB, 2 Cores)	Vultr – High Frequency Intel (2 GB)
PING_INLINE per Second	78,247.26	55,617.35
PING_MBULK per Second	74,738.41	57,077.62
SET per Second	77,041.60	56,369.79
GET per Second	83,333.33	56,753.69
INCR per Second	80,971.66	56,753.69
LPUSH per Second	79,113.92	55,834.73
RPUSH per Second	77,160.49	56,085.25
LPOP per Second	81,499.59	55,340.34
RPOP per Second	82,440.23	55,648.30
SADD per Second	80,192.46	56,211.35
HSET per Second	83,612.04	55,648.30
SPOP per Second	85,034.02	55,928.41
ZADD per Second	83,263.95	55,340.34
ZPOPMIN per Second	82,987.55	55,772.45
LRANGE_100 (first 100 elements) per Second	55,555.56	37,936.27
LRANGE_300 (first 300 elements) per Second	28,851.70	21,083.70
LRANGE_500 (first 500 elements) per Second	19,391.12	14,682.13
LRANGE_600 (first 600 elements) per Second	17,211.71	12,987.01
MSET (10 keys) per Second	80,256.82	52,056.22

Redis Average Latency (ms)

	Vultr – Cloud Compute (2 GB, 2 Cores)	Vultr – High Frequency Intel (2 GB)
PING_INLINE	0.34	0.58
PING_MBULK	0.35	0.56
SET	0.34	0.57
GET	0.32	0.56
INCR	0.32	0.56
LPUSH	0.34	0.57
RPUSH	0.34	0.57
LPOP	0.32	0.58
RPOP	0.32	0.58
SADD	0.32	0.57
HSET	0.31	0.58
SPOP	0.30	0.57
ZADD	0.31	0.58
ZPOPMIN	0.31	0.57
LRANGE_100 (first 100 elements)	0.54	0.91
LRANGE_300 (first 300 elements)	1.11	1.66
LRANGE_500 (first 500 elements)	1.62	2.44
LRANGE_600 (first 600 elements)	1.84	2.79
MSET (10 keys)	0.38	0.66

Conclusion

From the friendly robots:

When comparing the benchmark performance of the two Vultr instances, the Cloud Compute (2 GB, 2 Cores) shows higher throughput and lower latency in Redis operations, especially with complex commands like LRANGE, demonstrating its better handling of CPU-intensive tasks. The High Frequency Intel (2 GB) instance, while having slightly higher raw Redis performance for basic operations, lags behind in CPU-bound tasks, evidenced by its lower events per second and higher thread fairness execution time. Additionally, the High Frequency Intel instance provides better file I/O performance, indicating its advantage in I/O-heavy workloads. The Cloud Compute instance offers more CPU cores, making it a better fit for multi-threaded applications, whereas the High Frequency Intel instance, despite having lower CPU benchmarks, might excel in scenarios where NVMe storage is a critical factor. For general-purpose, CPU-intensive tasks, the Cloud Compute instance is preferable, while the High Frequency Intel instance shines in I/O-intensive tasks or environments where NVMe storage performance is crucial.

From the friendly human:

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Vultr Cloud Compute (2 GB, 2 Cores) vs. Vultr High Frequency Intel (2 GB)