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Nasdaq-Listed Bitcoin Miner Terawulf Reveals Firm’s Lake Mariner Site Has 12,000 Miners Deployed

Following the publicly-listed mining operation Terawulf’s announcement that the firm’s Lake Mariner mining data center is up and running with 30 megawatts (MW) of capacity, 11 days later, the company has revealed the operation of nearly 12,000 miners at the facility in New York. Between the owned and hosted hashing capacity at Lake Mariner, Terawulf has 1.3 exahash per second (EH/s) of hashpower.

Terawulf Says 12,000 Mining Rigs Are Operational in New York, Site Currently Produces 1.3 Exahash

The bitcoin mining firm Terawulf (Nasdaq: WULF) has detailed its recent miner deployments are on track to bolstering the company’s year-end targets. Terawulf made headlines last year, when it was reported that the American actress and businesswoman Gwyneth Paltrow invested in the company. On September 9, Paul Prager, the CEO of the bitcoin mining firm, announced that the company’s New York-based facility located in Lake Mariner was operational and it was managing 1 EH/s of hashpower with 30 MW of capacity.

Terawulf’s announcement on September 19 says the publicly listed mining operation now has “a total of over 1.3 EH/s operational at Lake Mariner.” The added hashrate is thanks to the close to 12,000 bitcoin miners that have been deployed at the New York site. Terawulf’s announcement details that roughly 3,000 Antminer S19 XP units stemmed from an agreement previously made with the mining rig manufacturer Bitmain Technologies.

According to Terawulf, Lake Mariner has two buildings and the initial batch of Antminer S19 XPs have been installed in building one, which has 50 MW of capacity. Building two is expected to add an additional 50 MW of capacity by the last quarter of 2022. Nazar Khan, co-founder and COO of Terawulf, explained that the company was called upon a number of times for demand response efforts.

Bitcoin mining coupled with demand response events has been an interesting development in recent times. In mid-July, bitcoin miners in Texas showcased a significant demand response effort on the ERCOT grid. The bitcoin mining infrastructure provider Lancium signed a deal in July to bolster a battery power demand response system, and the second-largest U.S. energy corporation, Duke Energy Corporation, is researching bitcoin mining applied to demand response efforts.

“Along with Lake Mariner’s strong hash rate growth has been a commensurate increase in our grid support capabilities,” Khan said in a statement on Monday. During an extreme summer across energy markets, our Lake Mariner facility was called upon for nearly a dozen demand response events, highlighting our ability to offer instant, precise support when the grid needs it most. And we continue to expand the suite of ancillary services that Lake Mariner can offer to the electric market.”

What do you think about Terawulf revealing 12,000 miners are now operational in Lake Mariner? Let us know what you think about this subject in the comments section below.

exact meaning of ntup in dieharder tests

I’m working with the dieharder package to test an prng, but I have a problem with understanding the output. The only thing I don’t quite understand is the "ntup". What does it exactly mean, I can’t find a good explanation for this. I get that the ntuple should be a set of consecutive bits. But::Listen

I’m working with the dieharder package to test an prng, but I have a problem with understanding the output.
The only thing I don’t quite understand is the "ntup". What does it exactly mean, I can’t find a good explanation for this. I get that the ntuple should be a set of consecutive bits. But why is the ntup parameter for most tests 0? Is it because these tests don’t need ntup to operate? What would exactly change if one would change the ntup parameter, or at least what should be expected?
To show an example of the output i just copied output from another question, but its only to make clear what I mean, when talking about ntup (Twofish fails Dieharder test)
Can someone please give me a somewhat simple explanation what the ntup exactly does? I’m not sure if I’m just stupidly misunderstand something, but as I said i couldn’t find an answer that satisfied me.

            dieharder version 3.31.1 Copyright 2003 Robert G. Brown          #
##  
rng_name    |           filename             |rands/second|
file_input|                        fish.txt|  7.26e+06  |
#   
test_name   |ntup| tsamples |psamples|  p-value |Assessment
# b       #
diehard_birthdays|   0|       100|     100|0.65344498|  PASSED     
diehard_operm5|   0|   1000000|     100|0.11726095|  PASSED     
diehard_rank_32x32|   0|     40000|     100|0.84203088|  PASSED     
diehard_rank_6x8|   0|    100000|     100|0.73796762|  PASSED     
diehard_bitstream|   0|   2097152|     100|0.38051493|  PASSED      
diehard_opso|   0|   2097152|     100|0.04995365|  PASSED      
diehard_oqso|   0|   2097152|     100|0.59990831|  PASSED      
diehard_dna|   0|   2097152|     100|0.62220146|  PASSED      
diehard_count_1s_str|   0|    256000|     100|0.86262588|  PASSED       
diehard_count_1s_byt|   0|    256000|     100|0.12560712|  PASSED       
diehard_parking_lot|   0|     12000|     100|0.28041223|  PASSED       
diehard_2dsphere|   2|      8000|     100|0.76183470|  PASSED       
diehard_3dsphere|   3|      4000|     100|0.17846568|  PASSED       
diehard_squeeze|   0|    100000|     100|0.00384865|   WEAK        
diehard_sums|   0|       100|     100|0.43470008|  PASSED       
diehard_runs|   0|    100000|     100|0.70560801|  PASSED         
diehard_runs|   0|    100000|     100|0.98961342|  PASSED       
diehard_craps|   0|    200000|     100|0.18043071|  PASSED        
diehard_craps|   0|    200000|     100|0.89290364|  PASSED       
marsaglia_tsang_gcd|   0|  10000000|     100|0.00000000|  FAILED        
marsaglia_tsang_gcd|   0|  10000000|     100|0.00000000|  FAILED       
sts_monobit|   1|    100000|     100|0.72613955|  PASSED        
sts_runs|   2|    100000|     100|0.26712378|  PASSED        
sts_serial|   1|    100000|     100|0.94935591|  PASSED        
sts_serial|   2|    100000|     100|0.93198856|  PASSED       
sts_serial|   3|    100000|     100|0.99554380|   WEAK          
sts_serial|   3|    100000|     100|0.72444970|  PASSED         
sts_serial|   4|    100000|     100|0.19981717|  PASSED          
sts_serial|   4|    100000|     100|0.06124493|  PASSED        
sts_serial|   5|    100000|     100|0.87811046|  PASSED       
sts_serial|   5|    100000|     100|0.09618787|  PASSED        
sts_serial|   6|    100000|     100|0.87317579|  PASSED       
sts_serial|   6|    100000|     100|0.99688012|   WEAK         
sts_serial|   7|    100000|     100|0.50043383|  PASSED        
sts_serial|   7|    100000|     100|0.61746527|  PASSED       
sts_serial|   8|    100000|     100|0.97376805|  PASSED        
sts_serial|   8|    100000|     100|0.94872352|  PASSED        
sts_serial|   9|    100000|     100|0.35958803|  PASSED        
sts_serial|   9|    100000|     100|0.39252366|  PASSED        
sts_serial|  10|    100000|     100|0.40682407|  PASSED       
sts_serial|  10|    100000|     100|0.69846273|  PASSED      
sts_serial|  11|    100000|     100|0.14757958|  PASSED      
sts_serial|  11|    100000|     100|0.85142983|  PASSED     
sts_serial|  12|    100000|     100|0.33628714|  PASSED   
sts_serial|  12|    100000|     100|0.80400201|  PASSED       
sts_serial|  13|    100000|     100|0.50635238|  PASSED     
sts_serial|  13|    100000|     100|0.04113439|  PASSED         
sts_serial|  14|    100000|     100|0.48030593|  PASSED    
sts_serial|  14|    100000|     100|0.83615004|  PASSED   
sts_serial|  15|    100000|     100|0.85634237|  PASSED    
sts_serial|  15|    100000|     100|0.86413582|  PASSED     
sts_serial|  16|    100000|     100|0.81247787|  PASSED    
sts_serial|  16|    100000|     100|0.62279344|  PASSED   
rgb_bitdist|   1|    100000|     100|0.10521730|  PASSED    
rgb_bitdist|   2|    100000|     100|0.36419006|  PASSED   
rgb_bitdist|   3|    100000|     100|0.50848488|  PASSED   
rgb_bitdist|   4|    100000|     100|0.91911028|  PASSED   
rgb_bitdist|   5|    100000|     100|0.68355135|  PASSED   
rgb_bitdist|   6|    100000|     100|0.07298074|  PASSED   
rgb_bitdist|   7|    100000|     100|0.99703911|   WEAK    
rgb_bitdist|   8|    100000|     100|0.50843903|  PASSED   
rgb_bitdist|   9|    100000|     100|0.51151893|  PASSED   
rgb_bitdist|  10|    100000|     100|0.40558627|  PASSED   
rgb_bitdist|  11|    100000|     100|0.27640943|  PASSED   
rgb_bitdist|  12|    100000|     100|0.64415540|  PASSED   
rgb_minimum_distance|   2|     10000|    1000|0.77930849|  PASSED   
rgb_minimum_distance|   3|     10000|    1000|0.89974521|  PASSED   
rgb_minimum_distance|   4|     10000|    1000|0.52655953|  PASSED   
rgb_minimum_distance|   5|     10000|    1000|0.01029230|  PASSED   
rgb_permutations|   2|    100000|     100|0.49947588|  PASSED    
rgb_permutations|   3|    100000|     100|0.48976917|  PASSED   
rgb_permutations|   4|    100000|     100|0.99435735|  PASSED   
rgb_permutations|   5|    100000|     100|0.18313717|  PASSED   
rgb_lagged_sum|   0|   1000000|     100|0.11846988|  PASSED   
rgb_lagged_sum|   1|   1000000|     100|0.20793259|  PASSED   
rgb_lagged_sum|   2|   1000000|     100|0.08406645|  PASSED   
rgb_lagged_sum|   3|   1000000|     100|0.00002903|   WEAK    
rgb_lagged_sum|   4|   1000000|     100|0.00000000|  FAILED   
rgb_lagged_sum|   5|   1000000|     100|0.00156593|   WEAK    
rgb_lagged_sum|   6|   1000000|     100|0.13398055|  PASSED   
rgb_lagged_sum|   7|   1000000|     100|0.00000071|  FAILED  
rgb_lagged_sum|   8|   1000000|     100|0.07282751|  PASSED   
rgb_lagged_sum|   9|   1000000|     100|0.00000653|   WEAK    
rgb_lagged_sum|  10|   1000000|     100|0.24179580|  PASSED   
rgb_lagged_sum|  11|   1000000|     100|0.00620851|  PASSED   
rgb_lagged_sum|  12|   1000000|     100|0.24310357|  PASSED   
rgb_lagged_sum|  13|   1000000|     100|0.15323532|  PASSED   
rgb_lagged_sum|  14|   1000000|     100|0.00000174|   WEAK    
rgb_lagged_sum|  15|   1000000|     100|0.00000000|  FAILED   
rgb_lagged_sum|  16|   1000000|     100|0.39385345|  PASSED   
rgb_lagged_sum|  17|   1000000|     100|0.11381934|  PASSED   
rgb_lagged_sum|  18|   1000000|     100|0.78715021|  PASSED   
rgb_lagged_sum|  19|   1000000|     100|0.00000000|  FAILED   
rgb_lagged_sum|  20|   1000000|     100|0.52371093|  PASSED   
rgb_lagged_sum|  21|   1000000|     100|0.00531931|  PASSED   
rgb_lagged_sum|  22|   1000000|     100|0.19857791|  PASSED   
rgb_lagged_sum|  23|   1000000|     100|0.00000000|  FAILED   
rgb_lagged_sum|  24|   1000000|     100|0.00000431|   WEAK    
rgb_lagged_sum|  25|   1000000|     100|0.02471464|  PASSED   
rgb_lagged_sum|  26|   1000000|     100|0.07546643|  PASSED   
rgb_lagged_sum|  27|   1000000|     100|0.01786362|  PASSED   
rgb_lagged_sum|  28|   1000000|     100|0.28778610|  PASSED   
rgb_lagged_sum|  23|   1000000|     100|0.00000000|  FAILED 
rgb_lagged_sum|  30|   1000000|     100|0.13632978|  PASSED   
rgb_lagged_sum|  31|   1000000|     100|0.00000000|  FAILED   
rgb_lagged_sum|  32|   1000000|     100|0.11176539|  PASSED   
rgb_kstest_test|   0|     10000|    1000|0.29113864|  PASSED   
dab_bytedistrib|   0|  51200000|       1|0.00000000|  FAILED   
dab_dct| 256|     50000|       1|0.93719430|  PASSED   
Preparing to run test 207.  ntuple = 0 
dab_filltree|  32|  15000000|        1|0.60930301|  PASSED  
dab_filltree|  32|  15000000|       1|0.29252232|  PASSED     
Preparing to run test 208.  ntuple = 0   
dab_filltree2|   0|   5000000|       1|0.64246455|  PASSED     
dab_filltree2|   1|   5000000|       1|0.20829118|  PASSED     
Preparing to run test 209.  ntuple = 0
dab_monobit2|  12|  65000000|       1|1.00000000|  FAILED    

Nasdaq-Listed Bitcoin Miner Terawulf Reveals Firm’s Lake Mariner Site Has 12,000 Miners Deployed

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