Mining with AMD Turion(tm) II Neo N40L Dual-Core Processor
AMD Turion(tm) II Neo N40L Dual-Core Processor can generate more than
0.12 USD monthly income with a
146.13 H/s hashrate on the
XMR — RandomX (XMRig) algorithm.
Algorithm | Hashrate | Monthly Income | Monthly BTC Income | Monthly USD Income |
---|---|---|---|---|
XMR — RandomX (XMRig) | ≈146.13 H/s | ≈0.00072735 XMR | ≈0.00000524 BTC | ≈0.12 USD |
- ≈ There isn’t enough data provided to make an accurate evaluation.
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Activity
Active miners and hashing speeds
The list of all installed miners and all the mining
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Settings
Wallets, payments and startup
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Disk encryption benchmarks: | |
$ cryptsetup benchmark | |
# Tests are approximate using memory only (no storage IO). | |
PBKDF2-sha1 352344 iterations per second | |
PBKDF2-sha256 196215 iterations per second | |
PBKDF2-sha512 156784 iterations per second | |
PBKDF2-ripemd160 237449 iterations per second | |
PBKDF2-whirlpool 73470 iterations per second | |
# Algorithm | Key | Encryption | Decryption | |
aes-cbc 128b 73.4 MiB/s 86.7 MiB/s | |
serpent-cbc 128b 36.2 MiB/s 98.2 MiB/s | |
twofish-cbc 128b 83.3 MiB/s 107.5 MiB/s | |
aes-cbc 256b 58. 5 MiB/s 66.2 MiB/s | |
serpent-cbc 256b 40.0 MiB/s 97.5 MiB/s | |
twofish-cbc 256b 87.3 MiB/s 106.7 MiB/s | |
aes-xts 256b 81.9 MiB/s 84.2 MiB/s | |
serpent-xts 256b 91.3 MiB/s 93.2 MiB/s | |
twofish-xts 256b 100.1 MiB/s 99.1 MiB/s | |
aes-xts 512b 62.2 MiB/s 64.2 MiB/s | |
serpent-xts 512b 91.3 MiB/s 92.6 MiB/s | |
twofish-xts 512b 99.0 MiB/s 98.4 MiB/s | |
CPU. It’s fine for running low-CPU VMs, but no AMD-Vi for PCI-passthrough. | |
$ cat /proc/cpuinfo | |
processor : 0 | |
vendor_id : AuthenticAMD | |
cpu family : 16 | |
model : 6 | |
model name : AMD Turion(tm) II Neo N40L Dual-Core Processor | |
stepping : 3 | |
microcode : 0x10000c8 | |
cpu MHz : 800.000 | |
cache size : 1024 KB | |
physical id : 0 | |
siblings : 2 | |
core id : 0 | |
cpu cores : 2 | |
apicid : 0 | |
initial apicid : 0 | |
fpu : yes | |
fpu_exception : yes | |
cpuid level : 5 | |
wp : yes | |
flags : fpu vme de pse tsc msr pae mce cx8 apic sep mtrr pge mca cmov pat pse36 clflush mmx fxsr sse sse2 ht syscall nx mmxext fxsr_opt pdpe1gb rdtscp lm 3dnowext 3dnow constant_tsc rep_good nopl nonstop_tsc extd_apicid eagerfpu pni monitor cx16 popcnt lahf_lm cmp_legacy svm extapic cr8_legacy abm sse4a misalignsse 3dnowprefetch osvw ibs skinit wdt nodeid_msr hw_pstate vmmcall npt lbrv svm_lock nrip_save | |
bugs : tlb_mmatch apic_c1e fxsave_leak sysret_ss_attrs null_seg | |
bogomips : 2995. 04 | |
TLB size : 1024 4K pages | |
clflush size : 64 | |
cache_alignment : 64 | |
address sizes : 48 bits physical, 48 bits virtual | |
power management: ts ttp tm stc 100mhzsteps hwpstate | |
processor : 1 | |
vendor_id : AuthenticAMD | |
cpu family : 16 | |
model : 6 | |
model name : AMD Turion(tm) II Neo N40L Dual-Core Processor | |
stepping : 3 | |
microcode : 0x10000c8 | |
cpu MHz : 800. 000 | |
cache size : 1024 KB | |
physical id : 0 | |
siblings : 2 | |
core id : 1 | |
cpu cores : 2 | |
apicid : 1 | |
initial apicid : 1 | |
fpu : yes | |
fpu_exception : yes | |
cpuid level : 5 | |
wp : yes | |
flags : fpu vme de pse tsc msr pae mce cx8 apic sep mtrr pge mca cmov pat pse36 clflush mmx fxsr sse sse2 ht syscall nx mmxext fxsr_opt pdpe1gb rdtscp lm 3dnowext 3dnow constant_tsc rep_good nopl nonstop_tsc extd_apicid eagerfpu pni monitor cx16 popcnt lahf_lm cmp_legacy svm extapic cr8_legacy abm sse4a misalignsse 3dnowprefetch osvw ibs skinit wdt nodeid_msr hw_pstate vmmcall npt lbrv svm_lock nrip_save | |
bugs : tlb_mmatch apic_c1e fxsave_leak sysret_ss_attrs null_seg | |
bogomips : 2995. 09 | |
TLB size : 1024 4K pages | |
clflush size : 64 | |
cache_alignment : 64 | |
address sizes : 48 bits physical, 48 bits virtual | |
power management: ts ttp tm stc 100mhzsteps hwpstate | |
2x Kingston KVR16E11/8 RAM 8 GB 1600 MHz DDR3 ECC CL11 DIMM, 240-Pin. If you want ECC, it needs to be | |
UDIMM which is $$$. Although 16GB isn’t officially supported it worked out of the box for me. | |
$ dmidecode —type memory | |
# dmidecode 2. 12 | |
SMBIOS 2.6 present. | |
Handle 0x0014, DMI type 16, 15 bytes | |
Physical Memory Array | |
Location: System Board Or Motherboard | |
Use: System Memory | |
Error Correction Type: Single-bit ECC | |
Maximum Capacity: 8 GB | |
Error Information Handle: Not Provided | |
Number Of Devices: 2 | |
Handle 0x0016, DMI type 17, 28 bytes | |
Memory Device | |
Array Handle: 0x0014 | |
Error Information Handle: Not Provided | |
Total Width: 72 bits | |
Data Width: 64 bits | |
Size: 8192 MB | |
Form Factor: DIMM | |
Set: None | |
Locator: DIMM0 | |
Bank Locator: BANK0 | |
Type: Other | |
Type Detail: Synchronous | |
Speed: 1333 MHz | |
Manufacturer: Manufacturer00 | |
Serial Number: SerNum00 | |
Asset Tag: Not Specified | |
Part Number: ModulePartNumber00 | |
Rank: Unknown | |
Handle 0x0018, DMI type 17, 28 bytes | |
Memory Device | |
Array Handle: 0x0014 | |
Error Information Handle: Not Provided | |
Total Width: 72 bits | |
Data Width: 64 bits | |
Size: 8192 MB | |
Form Factor: DIMM | |
Set: None | |
Locator: DIMM1 | |
Bank Locator: BANK1 | |
Type: Other | |
Type Detail: Synchronous | |
Speed: 1333 MHz | |
Manufacturer: Manufacturer01 | |
Serial Number: SerNum01 | |
Asset Tag: Not Specified | |
Part Number: ModulePartNumber01 | |
Rank: Unknown | |
Temperatures (room 20c): | |
$ sensors | |
jc42-i2c-0-18 | |
Adapter: SMBus PIIX4 adapter port 0 at 0b00 | |
RAM1 Temp: +33. 1°C (low = +0.0°C) | |
(high = +60.0°C, hyst = +54.0°C) | |
(crit = +70.0°C, hyst = +64.0°C) | |
jc42-i2c-0-19 | |
Adapter: SMBus PIIX4 adapter port 0 at 0b00 | |
RAM2 Temp: +30.2°C (low = +0.0°C) | |
(high = +60.0°C, hyst = +54.0°C) | |
(crit = +70.0°C, hyst = +64.0°C) | |
w83795adg-i2c-1-2f | |
Adapter: SMBus PIIX4 adapter port 2 at 0b00 | |
Vcore: +0. 78 V (min = +0.50 V, max = +1.40 V) | |
Vdimm: +1.51 V (min = +1.42 V, max = +1.57 V) | |
+3.3V: +3.27 V (min = +2.96 V, max = +3.63 V) | |
3VSB: +3.25 V (min = +2.96 V, max = +3.63 V) | |
System Fan: 533 RPM (min = 329 RPM) | |
CPU Temp: +45.5°C (high = +109.0°C, hyst = +109.0°C) | |
(crit = +109.0°C, hyst = +109.0°C) sensor = thermal diode | |
NB Temp: +40.8°C (high = +105.0°C, hyst = +105.0°C) | |
(crit = +105. 0°C, hyst = +105.0°C) sensor = thermal diode | |
MB Temp: +21.0°C (high = +39.0°C, hyst = +39.0°C) | |
(crit = +44.0°C, hyst = +44.0°C) sensor = thermistor | |
k10temp-pci-00c3 | |
Adapter: PCI adapter | |
CPU Temp: +48.5°C (high = +70.0°C) | |
(crit = +100.0°C, hyst = +95.0°C) | |
Power usage when idle (2x HDD, 1x SSD, 1x PCI ethernet, no optical): 40w. |
90,000 characteristics of AMD Turion II Neo N40L: TESTS, competitors, price
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Processor TURION NEO NEO 9001 cores — 2.
The base frequency of Turion II Neo N40L cores is 1.5 GHz.
Price in Russia
Want to buy Turion II Neo N40L cheap? Look at the list of stores that already sell the processor in your city.
Family
- Turion II Neo N54L
AMD Turion II Neo N40L Benchmarks
Game Speed
Performance in games and similar applications, according to our tests.
The performance of 4 cores, if any, and performance per core has the greatest impact on the result, since most games do not fully use more than 4 cores.
The speed of caches and working with RAM is also important.
Speed in office use
Performance in everyday work, such as browsers and office programs.
The performance of 1 core has the greatest impact on the result, since most of these applications use only one, ignoring the rest.
Similarly, many professional applications such as various CAD programs ignore multi-threaded performance.
Speed in heavy applications
Performance in resource-intensive tasks loading a maximum of 8 cores.
The performance of all cores and their number has the greatest impact on the result, since most of these applications willingly use all the cores and increase the speed accordingly.
At the same time, certain periods of work can be demanding on the performance of one or two cores, for example, applying filters in the editor.
Data obtained from tests by users who tested their systems with and without overclocking. Thus, you see the average values corresponding to the processor.
Speed of numerical operations
Simple household tasks |
||
Minimum | Average | Maximum |
29 | Memory: 53 | 64 9007 |
Memory 54.4 |
||
12 | 1 core: 20 | 22 |
1 core 8.5 |
||
21 | 2 cores: 38 | 44 |
2 cores 8.2 |
||
Demanding games and tasks |
||
Minimum | Average | Maximum |
22 | 4 cores: 39 | 44 9007 |
4 cores 4. 2 |
||
25 | 8 cores: 39 | 44 |
8 cores 2.3 |
Extreme |
||
Minimum | Average | Maximum |
22 | All Cores: 39 | 44 9007 |
All cores 0.7 |
Different tasks require different CPU strengths. A system with few fast cores and low memory latency will be fine for the vast majority of games, but will be inferior to a system with a lot of slow cores in a rendering scenario.
We believe that a minimum of 4/4 (4 physical cores and 4 threads) processor is suitable for a budget gaming PC. At the same time, some games can load it at 100%, slow down and freeze, and performing any tasks in the background will lead to a drop in FPS.
Ideally, the budget shopper should aim for a minimum of 4/8 and 6/6. A gamer with a big budget can choose between 6/12, 8/8 and 8/16. Processors with 10 and 12 cores can perform well in games with high frequency and fast memory, but are overkill for such tasks. Also, buying for the future is a dubious undertaking, since in a few years many slow cores may not provide sufficient gaming performance.
When choosing a processor for your work, consider how many cores your programs use. For example, photo and video editors can use 1-2 cores when working with filtering, and rendering or converting in the same editors already uses all threads.
Data obtained from tests by users who tested their systems both with overclocking (maximum value in the table) and without (minimum). A typical result is shown in the middle, the more filled in the color bar, the better the average result among all tested systems.
Compare
Game Tests
FPS measured by us in popular games on AMD Turion II Neo N40L and system requirements. Please note that the official requirements of developers in games do not always match the data of real tests. Also, the result is strongly influenced by the overclocking of the system and the graphic settings in the game. We test at high settings in FullHD resolution to get numbers close to real gameplay.
On average for all gaming tests, the processor scored 24.7 points out of 100, where 100 is the fastest gaming processor to date.
The most popular config: motherboard for AMD Turion II Neo N40L — HP ProLiant MicroServer, video card — Mobility Radeon HD 4250, SSD — 870 QVO 1TB.
Features
Basic
Socket Installed in motherboards with a suitable socket. Note that a socket is not guaranteed to be compatible. The manufacturer may not add support to the BIOS. | |
Manufacturer Firm |
Performance
Cores The total number of physical cores. | 2 |
ThreadsNumber of threads. The number of logical processor cores that the operating system sees. | 2 |
Multi-Threading Technology With Intel’s Hyper-threading and AMD’s SMT technology, one physical core is recognized as two logical cores in the operating system, thereby increasing processor performance in multi-threaded applications. | Missing |
Base frequencyGuaranteed frequency of all cores (P-cores in case of corresponding architecture) of the processor at maximum load. It is important to remember that speed and frequency are not directly related. For example, a new processor at a lower frequency may be faster than an old one at a higher one. | 1.5 GHz |
Cache and RAM
Video core
PCI
Details
Competitors
Games | Office | Heavy duty | |
---|---|---|---|
Better than | Intel T2400 | Intel Atom Z3740D | Intel Core2 Duo U9400 |
Worse than | Intel Core2 T5600 | Intel Core2 Duo T5850 | Intel T2600 |
Please note that competitors are selected automatically based on performance in a particular task. Therefore, some may puzzle you. We are improving our selection algorithm, treat with understanding.
Compare
AMD Turion II Neo N40L vs Intel T2400
AMD Turion II Neo N40L vs Intel Atom Z3740D
AMD Turion II Neo N40L vs Intel Core2 Duo U9400
AMD Turion II Neo N40L vs Intel Core2 T5600
AMD Turion II Neo N40L vs Intel Core2 Duo T5850
AMD Turion II Neo N40L vs Intel T2600
AMD Turion II Neo N40L 9 processor0019
15 W
The maximum temperature
95 ° C
Shina
1600 MHZ 16-bit Hypertransport (3. 2 GT/S)
CASH 1 level L1
2×64+2×64 KB
Kesh 2 Level L2
2×1024 KB
CASH 3rd level L3
NO KB
RAM
RAM Controller
Types of RAM
DDR3-800
Chances of memory0019
2
Speed rating Turion II Neo N40L
Attention! The general rating calculation method is chosen, which means that the rating percentage is calculated relative to the most powerful processor participating on our site.
Rating calculation method:
Overall ratingBy Geneva architectureBy BGA812 socketAmong Intel processorsAmong AMD processorsAmong embedded processorsAmong Turion processorsAmong Turion II processorsAmong 2-core processorsAmong 2011 processors
The total performance rating
685.12
(0.65%)
Passmark CPU MARK
588
(0.67%)
Cinebench 11. 5 (64-bit) multipropet 0.63%)
Cinebench 11.5 (64-bit) Single-threaded test
0.28
(3.24%)
Cinebench 15 (64-bit) Multi-threaded test
58.28
58.28
%
Cinebench 15 (64-bit) Single-threaded benchmark
900 20 33%)
x264 HD 4.0 Pass 1
15.72
(0.61%)
x264 HD 4.0 Pass 2
3.69
(0.6%)
3DMARK06 CPU
963.64
( 0.67%)
WinRAR 4.0
399.67
(0.67%)
Positions in the rating
Attention! The general rating calculation method is chosen, which means that the rating percentage is calculated relative to the most powerful processor participating on our site.
Rating calculation method:
Overall ratingBy Geneva architectureBy BGA812 socketAmong Intel processorsAmong AMD processorsAmong embedded processorsAmong Turion processorsAmong Turion II processorsAmong 2-core processorsAmong 2011 processors
The total performance rating
The ranking is participated in the rating 3291 processor
583 place
(out of 3291)
Passmark CPU Mark
3279 processors
642 Place
(of 3279) bit) Multi-threaded test
3221 processors participate in the rating
510 place
(out of 3221)
Cinebench 11. 5 (64-bit) Single-threaded test
3215 processors participate in the rating
344 place
(out of 3215)
Cinebench 15 (64-bit) multi-control test
in the ranking 3218 processors
500
(out of 3218)
Cinebench 15 (64-BIT) Single-test test
B. The rating is participated in 3217 processors
416 place
(out of 3217)
Geekbench 4.0 (64-bit) Multipoque test
in the ranking 3209 processors
470 470 place
(out of 3209)
Geekbench 4.0) Single thread test
The ranking is involved in 3209 processors
344 place
(out of 3209)
x264 HD 4.0 Pass 1
The ranking is participated in the rating 3211 processors
491 place
(of 3211)
x264 HD 4.0 PASS 2 9. 3211 processors
506 place
(from 3211)
3DMark06 CPU
The ranking is 3242 processors
555
(out of 3242)
Winrar 4.0
in the ranking 3212 processors participate in the rating. 0019
467 place
(out of 3212)
Technology or instruction name | Meaning | Short description |
---|---|---|
PowerNow! | PowerNow! idle frequency reduction technology. |
Technology or instruction name | Meaning | Brief description |
---|---|---|
MMX (Multimedia Extensions) | Multimedia extensions. | |
SSE (Streaming SIMD Extensions) | Streaming SIMD processor extension. | |
SSE2 (Streaming SIMD Extensions 2) | Processor Streaming SIMD Extension 2. | |
SSE3 (Streaming SIMD Extensions 3) | Streaming SIMD Processor Extension 3. | |
SSE4A (Streaming SIMD Extensions 4A) | Processor Streaming SIMD 4A Extension. | |
AMD64 | 64-bit microprocessor architecture developed by AMD. | |
3DNow! | Optional MMX extension for AMD processors. |
Technology or instruction name | Meaning | Short description |
---|---|---|
EVP (Enhanced Virus Protection) | Improved virus protection. |
Technology or instruction name | Meaning | Short description |
---|---|---|
AMD-V | AMD-V Virtualization Technology. |
AMD Turion II Neo N40L Processor Overview
The AMD Turion II Neo N40L is an embedded processor designed for mobile computing, based on the Geneva architecture. Been coming to stores since 2011.
This processor is designed exclusively for boards on the BGA812 socket. The temperature of the processor cores under heavy load is 95°C. The system bus speed will be 1600 MHz 16-bit HyperTransport (3.2 GT/s).
A good budget processor in its price range, useful for tasks and studies.
Competitors and analogues
On the BGA812 socket, among other processors, AMD solutions should be noted: Turion II Neo K685 of 2011, N36L model from the Athlon II line, Turion II Neo N54L of 2010, K625 model among the Turion II processor family, the K345 model among the Athlon II processor series, the earlier Turion Neo X2 L625 model. Intel’s rivals include the Celeron 847E based on the Sandy Bridge architecture, the Atom C2338 from 2013, the Atom C2358 based on the Rangeley architecture, and the E3827 model among the Atom E-series processor family.
If we compare the entire Core series, then it takes 12th place in the table.